WO2006032838A1 - Glycosyltransferase assay - Google Patents

Glycosyltransferase assay Download PDF

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Publication number
WO2006032838A1
WO2006032838A1 PCT/GB2005/003324 GB2005003324W WO2006032838A1 WO 2006032838 A1 WO2006032838 A1 WO 2006032838A1 GB 2005003324 W GB2005003324 W GB 2005003324W WO 2006032838 A1 WO2006032838 A1 WO 2006032838A1
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Prior art keywords
cell
glycosyltransferase
nucleic acid
assay
substrate
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PCT/GB2005/003324
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French (fr)
Inventor
Eng Kiat Lim
Markus Weis
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The University Of York
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Publication of WO2006032838A1 publication Critical patent/WO2006032838A1/en

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    • CCHEMISTRY; METALLURGY
    • C12BIOCHEMISTRY; BEER; SPIRITS; WINE; VINEGAR; MICROBIOLOGY; ENZYMOLOGY; MUTATION OR GENETIC ENGINEERING
    • C12QMEASURING OR TESTING PROCESSES INVOLVING ENZYMES, NUCLEIC ACIDS OR MICROORGANISMS; COMPOSITIONS OR TEST PAPERS THEREFOR; PROCESSES OF PREPARING SUCH COMPOSITIONS; CONDITION-RESPONSIVE CONTROL IN MICROBIOLOGICAL OR ENZYMOLOGICAL PROCESSES
    • C12Q1/00Measuring or testing processes involving enzymes, nucleic acids or microorganisms; Compositions therefor; Processes of preparing such compositions
    • C12Q1/48Measuring or testing processes involving enzymes, nucleic acids or microorganisms; Compositions therefor; Processes of preparing such compositions involving transferase
    • GPHYSICS
    • G01MEASURING; TESTING
    • G01NINVESTIGATING OR ANALYSING MATERIALS BY DETERMINING THEIR CHEMICAL OR PHYSICAL PROPERTIES
    • G01N2333/00Assays involving biological materials from specific organisms or of a specific nature
    • G01N2333/90Enzymes; Proenzymes
    • G01N2333/91Transferases (2.)
    • G01N2333/91091Glycosyltransferases (2.4)
    • GPHYSICS
    • G01MEASURING; TESTING
    • G01NINVESTIGATING OR ANALYSING MATERIALS BY DETERMINING THEIR CHEMICAL OR PHYSICAL PROPERTIES
    • G01N2500/00Screening for compounds of potential therapeutic value
    • G01N2500/04Screening involving studying the effect of compounds C directly on molecule A (e.g. C are potential ligands for a receptor A, or potential substrates for an enzyme A)

Definitions

  • the invention relates to an assay to determine the activity of a glycosyltransferase to a substrate and also to an assay to identify agents that modulate the activity of glycosyltransferases.
  • GTase glycosyltransferase
  • glucosyltransferases include glucosyltransferases, fucosyltransferases, sialyltransferases and galatosyltransferases.
  • GTases in higher plants, which are described in our earlier application WO01/59140 (also see Lim et al Journal Biological Chemistry 277(1): 586-92 (2002); Ross et al Genome Biology 2001 2(2): 3004.1-6) are characterised by the presence of a C-terminal consensus sequence.
  • the GTases of this super family function in the cytosol of plant cells and catalyse the transfer of glucose to small molecular weight substrates, such as for example, phenylpropanoid derivatives, coumarins, flavonoids, other secondary metabolites and molecules known to act as plant hormones.
  • This group of GTases are to a great extent uncharacterised in so far as their substrate specificity is yet to be fully determined.
  • mammalian GTases that are involved in essential cellular processes have been used as targets for the identification of agents that modulate their activity thereby inhibiting or enhancing the cellular process.
  • US 6376475 and US2003013636 describe methods to modulate the activity of sialyl galactosidases that are involved in regulating the immune response by administering analogues of sialylated oligosaccharides to inhibit a sialyl specific GTase.
  • US2004048325 describes inhibitors of GTases as well as screening methods that allow the identification of antagonistic agents that inhibit GTase enzymes.
  • the inhibitory agents have utility with respect to modulation of biological processes that involve glycoside-mediated cell adhesion.
  • Inhibitors are typically nucleotide analogues that bind to an active site of a GTase to compete with the natural nucleotide substrate of the enzyme, for example nucleotide analogues as described in US5770407 (e.g. nucleotide linked 2-deoxy-2-fluoroglycosides).
  • GTases have been identified as potential targets for the identification of therapeutic agents that inhibit the activity of prokaryotic GTases.
  • WOO 100796 describes a Heliobacter pylori GTase and its use as a target for the development of agents that inhibit the growth of these bacteria. This pathogen is recognised as a causative agent in chronic gastritis, the development of gastro-duodenal ulcers and as a carcinogen for certain gastric cancers (see Blaser et al Gastroenterology 102:720- 727).
  • UDP GTases are also implicated in drug metabolism.
  • US20022182692 describes the cloning of human UDP GTases that are thought to be drug metabolising enzymes and the use of these proteins to identify agents that modulate their activity.
  • the need for the identification and characterisation of GTase enzymes is two-fold. Firstly, as in the case of the plant GTases described above, it is desirable to rapidly screen GTase enzymes to determine their substrate specificity. This will accordingly facilitate the rational design of transgenic plants with altered metabolism.
  • GTase enzymes that are characterised may be used in assays to identify agents that inhibit or enhance their activity with respect to small molecule antagonists or agonists respectively. The agents identified may have therapeutic application through modulation of GTase activity.
  • a screening method to assay the activity of at least one glycosyltransfersase polypeptide comprising the steps of: i) providing a cell culture medium comprising a cell transfected or transformed with a nucleic acid molecule that encodes a glycosyltransferase polypeptide, or an enzymatically active fragment or variant thereof, and a test substrate for said glycosyltransferase; ii) separating said cell from the cell culture medium; and iii) detecting the presence of said glycoside substrate in said cell culture medium.
  • glycosyltransferase is selected from the group consisting of: glucosyltransferase; fucosyltransferase; sialyltransferase; galatosyltransferases; glucuronosyltransferases; rhamnosyltransferases; and mannosyltransferases.
  • said glycosyltransferase is a plant glucosyltransferase.
  • said nucleic acid molecule encodes a glucosyltransferase selected from the group consisting of: i) nucleic acid molecules consisting of a nucleic acid sequence as represented in Table 1; ii) nucleic acid molecules that hybridise under stringent hybridisation conditions to the nucleic acid molecules in (i) and which encode a polypeptide with glucosyltransferase activity; iii) a nucleic acid molecule that is degenerate as a result of the genetic code to the sequences as defined in (i) and (ii) above.
  • nucleic acid molecule consists of a " nucleic acid sequence as represented in Table 1.
  • glycosyltransferase is a mammalian glycosyltransferase.
  • mammalian glycosyltransferase is human.
  • said cell is a prokaryotic cell.
  • said prokaryotic cell is Eschercheria coli.
  • said cell is a eukaryotic cell.
  • said eukaryotic cell is selected from the group consisting of: a yeast cell; an insect cell; a mammalian cell or a plant cell.
  • said nucleic acid molecule is part of a vector adapted for the expression of said glycosyltransferase.
  • said adaptation includes, by example and not by way of limitation, the provision of transcription control sequences (promoter sequences) that mediate cell specific expression. These promoter sequences may be cell specific, inducible or constitutive.
  • Enhancer elements are cis acting nucleic acid sequences often found 5' to the transcription initiation site of a gene (enhancers can also be found 3' to a gene sequence or even located in intronic sequences and is therefore position independent). Enhancers function to increase the rate of transcription of the gene to which the enhancer is linked. Enhancer activity is responsive to trans acting transcription factors that have been shown to bind specifically to enhancer elements.
  • transcription factors are responsive to a number of environmental cues that include, by example and not by way of limitation, intermediary metabolites (e.g. sugars), environmental effectors (e.g. light, heat).
  • Promoter elements also include so called TATA box and RNA polymerase initiation selection (RIS) sequences that function to select a site of transcription initiation. These sequences also bind polypeptides that function, inter alia, to facilitate transcription initiation selection by RNA polymerase.
  • Adaptations also include the provision of selectable markers and autonomous replication sequences that both facilitate the maintenance of said vector in either the eukaryotic cell or prokaryotic host.
  • Vectors that are maintained autonomously are referred to as episomal vectors.
  • Episomal vectors are desirable since these molecules can incorporate large DNA fragments (30-50kb DNA). Episomal vectors of this type are described in WO98/07876.
  • Adaptations which facilitate the expression of vector encoded genes include the provision of transcription termination/polyadenylation sequences. This also includes the provision of internal ribosome entry sites (IRES) that function to maximise expression of vector encoded genes arranged in bicistronic or multi-cistronic expression cassettes.
  • IRS internal ribosome entry sites
  • a variant glycosyltransferase polypeptide may differ in amino acid sequence by one or more substitutions, additions, deletions, truncations that may be present in any combination.
  • preferred variants are those that vary from a reference polypeptide by conservative amino acid substitutions. Such substitutions are those that substitute a given amino acid by another amino acid of like characteristics.
  • amino acids are considered conservative replacements (similar): a) alanine, serine, and threonine; b) glutamic acid and aspartic acid; c) asparagine and glutamine d) arginine and lysine; e) isoleucine, leucine, methionine and valine and f) phenylalanine, tyrosine and tryptophan.
  • variants which retain or enhance the same biological function and activity as the reference polypeptide from which it varies, for example a polypeptide which has improved glycosyltransferase activity.
  • a functionally equivalent polypeptide is a variant wherein one in which one or more amino acid residues are substituted with conserved or non-conserved amino acid residues, or one in which one or more amino acid residues includes a substituent group.
  • Conservative substitutions are the replacements, one for another, among the aliphatic amino acids Ala, VaI, Leu and He; interchange of the hydroxyl residues Ser and Thr; exchange of the acidic residues Asp and GIu; substitution between amide residues Asn and GIn; exchange of the basic residues Lys and Arg; and replacements among aromatic residues Phe and Tyr.
  • the invention features polypeptide sequences having at least 75% identity with the polypeptide sequences as herein disclosed, or fragments and functionally equivalent polypeptides thereof.
  • the polypeptides have at least 85% identity, more preferably at least 90% identity, even more preferably at least 95% identity, still more preferably at least 97% identity, and most preferably at least 99% identity with the amino acid sequences illustrated herein and which retain or has enhanced glycosyltransferase activity.
  • test substrate is selected from the group consisting of; other sugars, proteins, peptides, lipids and other organic substrates, for example intermediate .metabolites (e.g. phenylpropanoid derivatives, coumarins, flavonoids).
  • intermediate .metabolites e.g. phenylpropanoid derivatives, coumarins, flavonoids
  • said cell is further transformed or transfected with a nucleic acid molecule that encodes a polypeptide or peptide substrate for said glycosyltransferase.
  • said preparation further includes a test agent wherein said agent is a potential modulator of said glycosyltransferase.
  • said agent is an antagonist of said glycosyltransferase.
  • Antagonistic agents are agents that, either directly or indirectly, inhibit the activity of a glycosyltransferase. Amongst these are preferably nucleotide analogues that are known to be potential inhibitors of glycosyltransferases, please see US5, 770,407.
  • the detection of said sugar is preceded by a cleavage step that removes said sugar moiety from said substrate prior to detection.
  • Cleavage of a sugar moiety prior to detection may be accomplished either chemically or enzymatically (e.g. a glycosidase).
  • the detection of the sugar moiety may be conducted by methods well known in the art.
  • said method comprises a plurality of glycosyltranferases.
  • said cell culture medium includes an exogenous source of sugar.
  • Test formats that allow the simultaneous or near simultaneous assaying of a plurality of glycosyltransferases are known in the art and include the use of multiwell plates comprising assay reactants. Systems are available for the collation of signals from multiple assays.
  • said assay further comprises the steps of: i) collating the signal generated during detection of said sugar from said plurality of glycosyltransferases; ii) converting the collated signals into a data analysable form; and optionally iii) providing an output for the analysed data.
  • the screening of large numbers of substrates and/or agents requires preparing arrays of cells for the handling and the administration of substrates/agents.
  • Standard multiwell micro titre plates with formats such as 6, 12, 48, 96 and 384 wells are typically used for compatibility with automated loading and robotic handling systems.
  • high throughput screens use homogeneous mixtures of agents with an indicator compound that is either converted or modified resulting in the production of a signal.
  • the signal is measured by suitable means (for example detection of fluorescence emission, optical density, or radioactivity) followed by integration of the signals from each well containing the cells, substrate/agent and indicator compound.
  • the present invention utilises the detection of a sugar in cell culture medium and this detection may be the result of the direct detection of the sugar or an indirect measure of the concentration of cleaved sugar from a modified substrate.
  • an assay product comprising a plurality of glycosyltransferases according to the invention.
  • said assay product is a multi-well plate.
  • said assay product comprises a cell array wherein each well of said multi- well plate comprises at least one cell transformed with at least one glycosyltransferase.
  • each well further comprises assay enzyme reactants, for example, buffers, substrates etc.
  • kits comprising an assay product according to the invention.
  • kit further comprises, a substrate, sugar detecting agents and buffers or co-factors.
  • Table 1 shows the coding sequences of 107 Arabidopsis glycosyltransferases
  • Figure 1 illustrates the analytical scheme of the high throughput colorimetric screening method described in this invention. An example of the application of this method is demonstrated using scopoletin as the model substrate; and
  • Figure 2 illustrates the dyes applicable to the high throughput colorimetric screening method. Materials and Methods
  • This method consists of three stages including (1) screening the activity of glycosyltransferases in whole cell biocatalysis against the aglycone of interest in a glucose-free medium, (2) release of glucose molecule from the glucoside produced in whole-cell biocatalysis, (3) detection of the released glucose molecules using a coupled enzymatic assay.
  • the mechanisms of this method are shown in Figure 1 using scopoletin as a model target; the details are described in the following sections:
  • the supernatant collected in Stage 1 was transferred to a microtiter plate. 1 U/ml ⁇ - glucosidase was added in order to release the glucose molecule from the glucoside. The reaction was carried out at 37 °C for 90 min.
  • a coupled enzymatic assay employing glucose oxidase and peroxidase was used to detect the glucose molecule released in the step described above.
  • Glucose oxidase specifically oxidises D-glucose to lacton and generates a by-product hydrogen peroxide, which is used by peroxidase in an electron transfer reaction to reduce a second substrate (dye) to form a coloured product (Williams et al., 1976, Clinical Chemistry 22, 372-374).
  • ABTS Figure 3
  • Other dyes applicable to this method are listed in Figure 3.
  • the coupled enzymatic assay (containing 0.8 U/ml horseradish peroxidase, 2 U/ml oxidase glucose, 2 mM ABTS) in a total volume of 250 ⁇ l was carried out at room temperature. After 10 min of incubation, the reaction mix was monitored at 405 nm using a plate reader. A glucose solution was used as the reference for the measurement.
  • FIG. 2 An example of applying the high throughput colorimetric screening method is demonstrated in Figure 2, using scopoletin as the model substrate.
  • scopoletin was converted to scopoletin-7-O-glucoside (scopolin) in a whole-cell biocatalysis process involving E. coli cells expressing Arabidopsis UGT71C1 (coding sequence included in Figure 1) cultured in a reaction vessel. Scopolin was recovered in the culture medium after 1 day of incubation at room temperature.
  • Stage 2 the glucose moiety of scopolin was released using a /3-glucosidase. The level of glucose moiety released in Stage 2 was then quantitated by a coupled enzymatic method involving glucose oxidase and perxidase.
  • Glucose oxidase specifically oxidises D-glucose to lacton and generates a by-product hydrogen peroxide, which is used by peroxidase in an electron transfer reaction to reduce ABTS (dye) to form a product in blue colour.
  • Table 1 >UGT71B1

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Abstract

We describe an assay to determine the activity of a glycosyltransfase to a substrate and also to an assay to identify agents that modulate the activity of glycosyltransferases.

Description

GIvcosyltransferase Assay
The invention relates to an assay to determine the activity of a glycosyltransferase to a substrate and also to an assay to identify agents that modulate the activity of glycosyltransferases.
Carbohydrates are ubiquitous throughout nature and play important biological roles. For example, carbohydrates are involved in intercellular recognition in mammalian cells and in plants are a major component of the plant cell wall. A class of enzyme involved in carbohydrate metabolism are the glycosyltransferase (GTase) enzymes. GTases are enzymes that transfer sugar residues from an activated nucleotide sugar to monomeric and polymeric acceptor molecules such as other sugars, proteins and peptides, lipids and other organic substrates. These glycosylated molecules take part in diverse metabolic pathways and processes. The transfer of a sugar moiety can alter the acceptor's bioactivity, solubility or transport properties within a cell. Examples of GTases include glucosyltransferases, fucosyltransferases, sialyltransferases and galatosyltransferases.
A large group of GTases in higher plants, which are described in our earlier application WO01/59140 (also see Lim et al Journal Biological Chemistry 277(1): 586-92 (2002); Ross et al Genome Biology 2001 2(2): 3004.1-6) are characterised by the presence of a C-terminal consensus sequence. The GTases of this super family function in the cytosol of plant cells and catalyse the transfer of glucose to small molecular weight substrates, such as for example, phenylpropanoid derivatives, coumarins, flavonoids, other secondary metabolites and molecules known to act as plant hormones. This group of GTases are to a great extent uncharacterised in so far as their substrate specificity is yet to be fully determined. It is apparent that simply determining the linear sequence structure of a GTase of this group is insufficient to determine the substrate specificity and it is necessary to screen a specific GTase against a large number of potential substrates to determine if a substrate is capable of being modified by a specific GTase. This presents a problem with respect to the assaying of GTase enzymes against a large number of substrates and the correlation of this data. The information obtained is useful in designing transgenic plants with altered intermediate metabolism by virtue of the over-expression or inhibition of a specific GTase as well as the use of GTases in biocatalysis process to produce glycosides.
Furthermore, mammalian GTases that are involved in essential cellular processes have been used as targets for the identification of agents that modulate their activity thereby inhibiting or enhancing the cellular process. For example, US 6376475 and US2003013636 describe methods to modulate the activity of sialyl galactosidases that are involved in regulating the immune response by administering analogues of sialylated oligosaccharides to inhibit a sialyl specific GTase.
US2004048325 describes inhibitors of GTases as well as screening methods that allow the identification of antagonistic agents that inhibit GTase enzymes. The inhibitory agents have utility with respect to modulation of biological processes that involve glycoside-mediated cell adhesion. Inhibitors are typically nucleotide analogues that bind to an active site of a GTase to compete with the natural nucleotide substrate of the enzyme, for example nucleotide analogues as described in US5770407 (e.g. nucleotide linked 2-deoxy-2-fluoroglycosides).
GTases have been identified as potential targets for the identification of therapeutic agents that inhibit the activity of prokaryotic GTases. For example, WOO 100796 describes a Heliobacter pylori GTase and its use as a target for the development of agents that inhibit the growth of these bacteria. This pathogen is recognised as a causative agent in chronic gastritis, the development of gastro-duodenal ulcers and as a carcinogen for certain gastric cancers (see Blaser et al Gastroenterology 102:720- 727).
UDP GTases are also implicated in drug metabolism. For example, US20022182692 describes the cloning of human UDP GTases that are thought to be drug metabolising enzymes and the use of these proteins to identify agents that modulate their activity. The need for the identification and characterisation of GTase enzymes is two-fold. Firstly, as in the case of the plant GTases described above, it is desirable to rapidly screen GTase enzymes to determine their substrate specificity. This will accordingly facilitate the rational design of transgenic plants with altered metabolism. Secondly, GTase enzymes that are characterised may be used in assays to identify agents that inhibit or enhance their activity with respect to small molecule antagonists or agonists respectively. The agents identified may have therapeutic application through modulation of GTase activity.
It would be desirable to have an assay system that allows the rapid screening of GTases for either activity toward a substrate or toward an' agent that acts either to inhibit or enhance GTase activity. We herein describe such an assay format that allows the screening of multiple GTase enzymes against a large number of substrates/agents.
According to an aspect of the invention there is provided a screening method to assay the activity of at least one glycosyltransfersase polypeptide comprising the steps of: i) providing a cell culture medium comprising a cell transfected or transformed with a nucleic acid molecule that encodes a glycosyltransferase polypeptide, or an enzymatically active fragment or variant thereof, and a test substrate for said glycosyltransferase; ii) separating said cell from the cell culture medium; and iii) detecting the presence of said glycoside substrate in said cell culture medium.
Ih a preferred method of the invention said glycosyltransferase is selected from the group consisting of: glucosyltransferase; fucosyltransferase; sialyltransferase; galatosyltransferases; glucuronosyltransferases; rhamnosyltransferases; and mannosyltransferases. In a preferred method of the invention said glycosyltransferase is a plant glucosyltransferase.
In a further preferred method of the invention said nucleic acid molecule encodes a glucosyltransferase selected from the group consisting of: i) nucleic acid molecules consisting of a nucleic acid sequence as represented in Table 1; ii) nucleic acid molecules that hybridise under stringent hybridisation conditions to the nucleic acid molecules in (i) and which encode a polypeptide with glucosyltransferase activity; iii) a nucleic acid molecule that is degenerate as a result of the genetic code to the sequences as defined in (i) and (ii) above.
In a preferred method of the invention said nucleic acid molecule consists of a " nucleic acid sequence as represented in Table 1.
Li an alternative preferred method of the invention said glycosyltransferase is a mammalian glycosyltransferase. Preferably said mammalian glycosyltransferase is human.
In a preferred method of the invention said cell is a prokaryotic cell. Preferably said prokaryotic cell is Eschercheria coli.
In an alternative preferred method of the invention said cell is a eukaryotic cell.
In a preferred method of the invention said eukaryotic cell is selected from the group consisting of: a yeast cell; an insect cell; a mammalian cell or a plant cell.
In a preferred method of the invention said nucleic acid molecule is part of a vector adapted for the expression of said glycosyltransferase. Typically said adaptation includes, by example and not by way of limitation, the provision of transcription control sequences (promoter sequences) that mediate cell specific expression. These promoter sequences may be cell specific, inducible or constitutive.
Promoter is an art recognised term and, for the sake of clarity, includes the following features which are provided by example only. Enhancer elements are cis acting nucleic acid sequences often found 5' to the transcription initiation site of a gene (enhancers can also be found 3' to a gene sequence or even located in intronic sequences and is therefore position independent). Enhancers function to increase the rate of transcription of the gene to which the enhancer is linked. Enhancer activity is responsive to trans acting transcription factors that have been shown to bind specifically to enhancer elements. The binding/activity of transcription factors (please see Eukaryotic Transcription Factors, by David S Latchman, Academic Press Ltd, San Diego) is responsive to a number of environmental cues that include, by example and not by way of limitation, intermediary metabolites (e.g. sugars), environmental effectors (e.g. light, heat). Promoter elements also include so called TATA box and RNA polymerase initiation selection (RIS) sequences that function to select a site of transcription initiation. These sequences also bind polypeptides that function, inter alia, to facilitate transcription initiation selection by RNA polymerase.
Adaptations also include the provision of selectable markers and autonomous replication sequences that both facilitate the maintenance of said vector in either the eukaryotic cell or prokaryotic host. Vectors that are maintained autonomously are referred to as episomal vectors. Episomal vectors are desirable since these molecules can incorporate large DNA fragments (30-50kb DNA). Episomal vectors of this type are described in WO98/07876.
Adaptations which facilitate the expression of vector encoded genes include the provision of transcription termination/polyadenylation sequences. This also includes the provision of internal ribosome entry sites (IRES) that function to maximise expression of vector encoded genes arranged in bicistronic or multi-cistronic expression cassettes.
These adaptations are well known in the art. There is a significant amount of published literature with respect to expression vector construction and recombinant DNA techniques in general. Please see, Sambrook et al (1989) Molecular Cloning: A Laboratory Manual, Cold Spring Harbour Laboratory, Cold Spring Harbour, NY and references therein; Marston, F (1987) DNA Cloning Techniques: A Practical Approach VoI HI IRL Press, Oxford UK; DNA Cloning: F M Ausubel et al, Current Protocols in Molecular Biology, John Wiley & Sons, Inc (1994).
A variant glycosyltransferase polypeptide may differ in amino acid sequence by one or more substitutions, additions, deletions, truncations that may be present in any combination. Among preferred variants are those that vary from a reference polypeptide by conservative amino acid substitutions. Such substitutions are those that substitute a given amino acid by another amino acid of like characteristics. The following non-limiting list of amino acids are considered conservative replacements (similar): a) alanine, serine, and threonine; b) glutamic acid and aspartic acid; c) asparagine and glutamine d) arginine and lysine; e) isoleucine, leucine, methionine and valine and f) phenylalanine, tyrosine and tryptophan. Most highly preferred are variants which retain or enhance the same biological function and activity as the reference polypeptide from which it varies, for example a polypeptide which has improved glycosyltransferase activity. A functionally equivalent polypeptide is a variant wherein one in which one or more amino acid residues are substituted with conserved or non-conserved amino acid residues, or one in which one or more amino acid residues includes a substituent group. Conservative substitutions are the replacements, one for another, among the aliphatic amino acids Ala, VaI, Leu and He; interchange of the hydroxyl residues Ser and Thr; exchange of the acidic residues Asp and GIu; substitution between amide residues Asn and GIn; exchange of the basic residues Lys and Arg; and replacements among aromatic residues Phe and Tyr. The invention features polypeptide sequences having at least 75% identity with the polypeptide sequences as herein disclosed, or fragments and functionally equivalent polypeptides thereof. In one embodiment, the polypeptides have at least 85% identity, more preferably at least 90% identity, even more preferably at least 95% identity, still more preferably at least 97% identity, and most preferably at least 99% identity with the amino acid sequences illustrated herein and which retain or has enhanced glycosyltransferase activity.
In a preferred method of the invention said test substrate is selected from the group consisting of; other sugars, proteins, peptides, lipids and other organic substrates, for example intermediate .metabolites (e.g. phenylpropanoid derivatives, coumarins, flavonoids).
In a preferred method of the invention said cell is further transformed or transfected with a nucleic acid molecule that encodes a polypeptide or peptide substrate for said glycosyltransferase.
hi a preferred method of the invention said preparation further includes a test agent wherein said agent is a potential modulator of said glycosyltransferase.
hi a preferred method of the invention said agent is an antagonist of said glycosyltransferase.
Antagonistic agents are agents that, either directly or indirectly, inhibit the activity of a glycosyltransferase. Amongst these are preferably nucleotide analogues that are known to be potential inhibitors of glycosyltransferases, please see US5, 770,407.
In a further preferred method of the invention the detection of said sugar is preceded by a cleavage step that removes said sugar moiety from said substrate prior to detection. Cleavage of a sugar moiety prior to detection may be accomplished either chemically or enzymatically (e.g. a glycosidase). The detection of the sugar moiety may be conducted by methods well known in the art.
In a further preferred method of the invention said method comprises a plurality of glycosyltranferases.
hi a preferred method of the invention said cell culture medium includes an exogenous source of sugar.
Test formats that allow the simultaneous or near simultaneous assaying of a plurality of glycosyltransferases are known in the art and include the use of multiwell plates comprising assay reactants. Systems are available for the collation of signals from multiple assays.
In a preferred method of the invention said assay further comprises the steps of: i) collating the signal generated during detection of said sugar from said plurality of glycosyltransferases; ii) converting the collated signals into a data analysable form; and optionally iii) providing an output for the analysed data.
The screening of large numbers of substrates and/or agents requires preparing arrays of cells for the handling and the administration of substrates/agents. Standard multiwell micro titre plates with formats such as 6, 12, 48, 96 and 384 wells are typically used for compatibility with automated loading and robotic handling systems. Typically, high throughput screens use homogeneous mixtures of agents with an indicator compound that is either converted or modified resulting in the production of a signal. The signal is measured by suitable means (for example detection of fluorescence emission, optical density, or radioactivity) followed by integration of the signals from each well containing the cells, substrate/agent and indicator compound. The present invention utilises the detection of a sugar in cell culture medium and this detection may be the result of the direct detection of the sugar or an indirect measure of the concentration of cleaved sugar from a modified substrate.
According to a further aspect of the invention there is provided an assay product comprising a plurality of glycosyltransferases according to the invention.
In a preferred embodiment of the invention said assay product is a multi-well plate. Preferably said assay product comprises a cell array wherein each well of said multi- well plate comprises at least one cell transformed with at least one glycosyltransferase. Preferably each well further comprises assay enzyme reactants, for example, buffers, substrates etc.
According to a further aspect of the invention there is provided a kit comprising an assay product according to the invention.
In a preferred embodiment of the invention said kit further comprises, a substrate, sugar detecting agents and buffers or co-factors.
An embodiment of the invention will now be described by example only and with reference to the following figures:
Table 1 shows the coding sequences of 107 Arabidopsis glycosyltransferases;
Figure 1 illustrates the analytical scheme of the high throughput colorimetric screening method described in this invention. An example of the application of this method is demonstrated using scopoletin as the model substrate; and
Figure 2: illustrates the dyes applicable to the high throughput colorimetric screening method. Materials and Methods
High Throughput Colorimetric Screening
This method, consists of three stages including (1) screening the activity of glycosyltransferases in whole cell biocatalysis against the aglycone of interest in a glucose-free medium, (2) release of glucose molecule from the glucoside produced in whole-cell biocatalysis, (3) detection of the released glucose molecules using a coupled enzymatic assay. The mechanisms of this method are shown in Figure 1 using scopoletin as a model target; the details are described in the following sections:
Whole cell biocatalysis
Single colonies of E. coli strain BL21 DΕ3 expressing Arabidopsis glycosyltransferases (UGT) were transformed to a 96-well plate containing 200 μl 2x YT broth (16 g/L trypton, 10 g/L yeast extracts, 5 g/L NaCl, 50 mg/L ampicillin) in each well. The culture was grown to an OD6oo nm of 1.0 (late exponential phase). The cells were then transferred to a buffer medium (pH 7.0) containing 10 g/L arabinose followed by the addition of 0.1 mM isopropyl β-D-thiogalactopyranoside and 0.1 mM aglycone substrate. After 1-3 days incubation at room temperature with agitation (250 rpm), the cultures were centrifuged at 4,000 x g at 4 °C for 15 min and the supernatant containing the glucoside produced in the whole-cell biocatalysis was collected.
Release of D-glucose by enzymatic cleavage
The supernatant collected in Stage 1 was transferred to a microtiter plate. 1 U/ml β- glucosidase was added in order to release the glucose molecule from the glucoside. The reaction was carried out at 37 °C for 90 min.
Detection of D-glucose
A coupled enzymatic assay employing glucose oxidase and peroxidase was used to detect the glucose molecule released in the step described above. Glucose oxidase specifically oxidises D-glucose to lacton and generates a by-product hydrogen peroxide, which is used by peroxidase in an electron transfer reaction to reduce a second substrate (dye) to form a coloured product (Williams et al., 1976, Clinical Chemistry 22, 372-374). In this context, ABTS (Figure 3) was chosen as the model dye for this detection method. Other dyes applicable to this method are listed in Figure 3.
The coupled enzymatic assay (containing 0.8 U/ml horseradish peroxidase, 2 U/ml oxidase glucose, 2 mM ABTS) in a total volume of 250 μl was carried out at room temperature. After 10 min of incubation, the reaction mix was monitored at 405 nm using a plate reader. A glucose solution was used as the reference for the measurement.
EXAMPLES
An example of applying the high throughput colorimetric screening method is demonstrated in Figure 2, using scopoletin as the model substrate. In Stage 1, scopoletin was converted to scopoletin-7-O-glucoside (scopolin) in a whole-cell biocatalysis process involving E. coli cells expressing Arabidopsis UGT71C1 (coding sequence included in Figure 1) cultured in a reaction vessel. Scopolin was recovered in the culture medium after 1 day of incubation at room temperature. In Stage 2, the glucose moiety of scopolin was released using a /3-glucosidase. The level of glucose moiety released in Stage 2 was then quantitated by a coupled enzymatic method involving glucose oxidase and perxidase. Glucose oxidase specifically oxidises D-glucose to lacton and generates a by-product hydrogen peroxide, which is used by peroxidase in an electron transfer reaction to reduce ABTS (dye) to form a product in blue colour. Table 1 >UGT71B1
ATGAAAGTAGAACTTGTGTTCATACCATCGCCGGGCGTTGGCCATATCCGAGCAACAACGGC GTTAGCAAAGCTTCTCGTTGCCAGCGACAACCGCCTCTCCGTCACTCTCATCGTCATTCCTT CACGAGTCTCCGACGACGCTTCTTCCTCCGTCTACACGAACTCCGAAGACCGTCTCCGCTAC ATCCTCCTCCCCGCCCGAGATCAAACTACTGATCTCGTATCTTACATCGACAGCCAGAAACC ACAAGTAAGAGCCGTCGTGTCCAAGGTCGCTGGAGATGTTTCAACACGTTCAGACTCACGGC TAGCTGGGATTGTCGTAGACATGTTCTGCACGTCCATGATAGACATCGCCGATGAGTTTAAC CTCTCGGCTTATATCTTCTACACGTCCAACGCTTCTTATCTCGGGCTACAGTTCCACGTTCA ATCTCTTTACGACGAGAAAGAACTCGACGTAΆGTGAGTTCAAAGATACGGAGATGAAGTTTG ACGTTCCAACTCTGACTCAGCCTTTTCCGGCAAΆATGTTTGCCTTCAGTGATGCTAAACAAG AAATGGTTTCCTTACGTTTTGGGTCGAGCTAGAΆGTTTTAGAGCAACGAAGGGTATTTTGGT AAATTCGGTGGCTGACATGGAACCTCAGGCGTTGAGTTTCTTTTCCGGTGGAAATGGGAATA CAAATATCCCTCCGGTGTACGCGGTTGGGCCCATTATGGACTTAGAATCTAGCGGCGATGAA GAGAAGAGAΆAGGAGATTTTACATTGGCTAAΆAGAGCAACCGACGAAATCTGTAGTGTTTCT CTGTTTTGGGAGCATGGGAGGTTTCAGTGAGGAACAAGCAAGAGAAATAGCTGTGGCGCTCG AGCGAAGCGGACACAGGTTTCTCTGGTCGCTTCGCCGCGCTTCTCCTGTTGGAAACAΆGTCT AATCCTCCTCCCGGAGAATTCACGAACTTAGAGGAGATTCTTCCAAAAGGGTTTTTAGATCG GACGGTGGAGATAGGGAAGATCATAAGCTGGGCACCACAAGTAGATGTGTTGAATAGTCCTG CTATAGGAGCGTTCGTGACACATTGTGGATGGAACTCAATTCTCGAGAGTCTTTGGTTCGGT GTTCCGATGGCGGCGTGGCCTATCTATGCTGAGCAACAGTTTAACGCGTTTCATATGGTGGA TGAGCTTGGTTTAGCGGCGGAGGTAAΆGAAGGAGTACCGTAGAGATTTTCTGGTGGAGGAGC CGGAGATTGTGACGGCTGATGAGATAGAGAGAGGGATCAAGTGTGCGATGGAGCAGGATAGC AAGATGAGGAAGAGGGTGATGGAGATGAAGGATAAGCTCCACGTGGCGTTGGTGGACGGTGG ATCTTCGAACTGTGCTCTAAAGAAGTTTGTTCAAGACGTGGTCGATAATGTTCCATAA
>UGT71B2
ATGAAACTGGAGCTGGTGTTCATACCATCACCTGGTGACGGACATCTCCGGCCATTAGTGGA GGTAGCTAAGCTTCATGTTGACCGTGACGACCATCTCTCCATCACCATCATCATCATCCCTC AGATGCATGGATTTAGTAGCAGTAACTCTTCTTCTTACATCGCTTCTCTCTCCTCTGATTCT GAAGAACGTCTTAGCTACAACGTTCTCTCCGTCCCTGATAAACCAGACTCCGATGACACCAA ACCACATTTTTTCGACTACATTGATAACTTCAAGCCGCAGGTCAAAGCCACGGTGGAAAAAC TTACTGACCCGGGTCCACCAGATTCGCCGTCGCGTCTTGCTGGATTCGTGGTGGATATGTTT TGCATGATGATGATTGATGTCGCTAATGAGTTTGGTGTTCCCAGTTACATGTTTTACACATC CAACGCAACGTTTCTTGGATTGCAAGTTCATGTTGAATACCTTTACGACGTTAAGAACTATG ACGTTAGTGACCTCAAGGACTCGGACACTACTGAGCTGGAAGTTCCTTGTTTGACTCGTCCT TTACCGGTTAAGTGTTTCCCCTCGGTTCTATTAACCAAGGAGTGGTTACCGGTTATGTTTAG ACAAACCAGAAGATTCCGAGAAACTAAAGGTATTTTGGTAAATACATTCGCTGAGCTTGAGC CTCAAGCTATGAAGTTTTTCTCCGGCGTAGATAGTCCTCTGCCTACGGTGTACACAGTTGGA CCGGTTATGAATCTTAAAATCAACGGTCCAAATTCATCTGACGATAAGCAATCGGAGATCCT ACGGTGGCTAGACGAGCAGCCACGTAAATCCGTTGTTTTCCTCTGTTTCGGAAGCATGGGAG GTTTCCGTGAGGGCCAAGCTAAAGAAATCGCAΆTCGCGCTTGAGCGAAGTGGTCACCGCTTT GTCTGGTCTCTTCGTCGTGCTCAACCAAAAGGATCGATAGGACCTCCCGAAGAATTTACGAA TCTTGAGGAAATTCTCCCGGAAGGATTCTTGGAACGGACGGCAGAGATAGGAAAGATTGTAG GTTGGGCTCCACAAAGCGCCATTCTAGCAAATCCTGCGATCGGAGGGTTCGTGTCGCATTGT GGATGGAACTCGACGCTAGAGAGTCTATGGTTCGGAGTTCCGATGGCTACGTGGCCGCTTTA CGCAGAGCAACAAGTTAACGCGTTCGAGATGGTTGAGGAGCTAGGGCTAGCGGTGGAGGTCC GAAATAGTTTCCGAGGAGATTTCATGGCGGCGGATGATGAGTTGATGACGGCAGAGGAGATA GAGAGAGGGATCCGGTGTTTGATGGAGCAGGATAGTGACGTGAGGAGTAGAGTGAAGGAGAT GAGCGAGAAGAGTCACGTAGCTTTAATGGACGGTGGATCTTCGCACGTTGCTCTTCTAAAGT TTATTCAAGACGTCACTAAGAATATCTCTTGA >UGT71B5
ATGAAGATTGAGCTTGTGTTCATACCTTTGCCGGGGATTGGTCATCTCAGGCCAACCGTGAA GCTAGCGAAGCAACTCATAGGCAGCGAAAACCGTCTTTCGATCACCATAATCATCATCCCTT CAAGATTTGACGCCGGTGATGCATCCGCCTGTATCGCATCTCTCACCACGTTGTCTCAAGAT GATCGCCTCCATTACGAATCCATATCCGTCGCAAAACAACCACCAACCTCCGACCCGGATCC TGTTCCGGCTCAΆGTGTACATAGAGAAACAAAAGACGAAAGTGAGAGATGCAGTCGCGGCGA GAATCGTCGATCCAACAAGAAAGCTCGCGGGATTCGTGGTGGACATGTTCTGTTCCTCGATG ATCGATGTAGCTAACGAGTTTGGAGTTCCGTGTTATATGGTATACACATCGAACGCTACGTT TTTAGGAACCATGCTTCACGTTCAACAAΆTGTACGATCAAΆAGAAGTATGACGTCAGCGAGT TAGAAAACTCGGTCACCGAGTTGGAGTTTCCGTCTCTGACTCGTCCTTATCCAGTGAAGTGT CTTCCTCATATCCTCACTTCAAAGGAGTGGTTACCTCTCTCTCTAGCTCAAGCTAGGTGTTT CCGGAAGATGAAGGGTATTTTGGTAAATACAGTTGCTGAGCTTGAACCTCACGCTTTGAAAA TGTTCAATATTAATGGTGACGATCTTCCTCAAGTTTATCCTGTTGGACCAGTGTTGCATCTC GAAAACGGCAATGACGATGATGAGAAGCAATCGGAAATTTTGCGGTGGCTCGACGAGCAACC GTCTAAATCTGTTGTGTTTCTCTGCTTTGGGAGCTTGGGAGGTTTCACTGAAGAACAAACAA GAGAΆACCGCTGTGGCCCTAGATAGAAGCGGTCAGCGGTTTCTTTGGTGTCTTCGTCACGCA TCGCCAAATATAAAAΆCAGATCGTCCCAGAGATTACACGAATCTTGAGGAGGTTTTACCGGA GGGGTTCTTGGAACGGACTTTGGATAGAGGGAAAGTGATTGGATGGGCACCACAAGTGGCGG TACTAGAGAAGCCGGCGATAGGAGGGTTTGTCACTCACTGCGGTTGGAACTCTATTTTAGAG AGCTTGTGGTTCGGTGTTCCAATGGTGACGTGGCCGCTATACGCGGAACAGAAGGTTAACGC GTTTGAGATGGTTGAGGAGCTGGGTTTGGCGGTGGAGATACGGAAGTACTTAAAAGGAGATT TGTTCGCCGGAGAGATGGAGACGGTTACCGCGGAGGATATAGAGAGAGCCATTAGGCGTGTG ATGGAGCAAGACAGTGACGTTAGGAACAACGTGAAAGAGATGGCGGAGAAGTGCCACTTCGC GTTAΆTGGACGGTGGATCTTCGAAGGCGGCTTTGGAAAΆGTTTATTCAAGACGTGATAGAGA ATATGGATTAA
>UGT71B6
ATGAAAATAGAGCTAGTATTCATTCCCTCTCCGGCAATTAGTCATCTCATGGCGACGGTAGA GATGGCGGAGCAACTAGTTGATAAAAACGACAACCTCTCTATCACCGTAATCATCATATCTT TTAGTTCTAAAAATACATCCATGATCACCTCTCTTACATCCAACAACCGCCTCCGGTACGAA ATAATCTCCGGAGGAGATCAACAACCAACGGAGCTCAAAGCAΆCTGATTCCCACATCCAAAG TCTAAAGCCACTGGTGAGAGACGCGGTTGCTAAACTCGTAGATTCCACTCTACCAGACGCGC CTCGTCTTGCGGGATTCGTTGTTGACATGTACTGCACGTCGATGATCGATGTCGCTAACGAA TTTGGCGTCCCTAGTTACTTGTTTTACACCTCTAACGCTGGATTTCTTGGACTTTTGCTTCA CATTCAGTTCATGTACGATGCAGAGGATATCTATGACATGAGCGAATTAGAAGACTCTGACG TAGAGTTGGTGGTTCCGAGTTTGACTAGTCCTTATCCGTTGAAATGTCTTCCTTACATTTTC AAATCAAAAGAGTGGCTCACTTTTTTTGTAΆCTCAAGCGAGAAGATTCAGAGAΆΆCTAAGGG CATTTTGGTAΆACACGGTTCCTGACTTGGAACCTCAAGCGTTGACGTTTCTTTCCAATGGTA ACATTCCACGTGCTTACCCAGTAGGACCATTGTTGCATCTCAAAAACGTAAATTGTGATTAC GTGGACAAGAAGCAATCGGAGATTTTACGGTGGCTAGACGAGCAACCGCCAAGATCTGTAGT GTTCCTCTGTTTCGGGAGCATGGGAGGGTTCAGTGAGGAACAAGTGAGAGAAACCGCATTAG CTCTCGATCGAAGCGGCCACCGGTTTCTTTGGTCTCTCCGTCGTGCATCTCCGAATATATTG AGAGAGCCTCCCGGAGAATTCACAAACCTAGAGGAGATTCTCCCAGAAGGGTTTTTCGATCG GACGGCTAACAGAGGAAAGGTTATCGGATGGGCTGAACAGGTGGCCATATTGGCGAAGCCGG CGATCGGAGGTTTTGTTTCTCACGGCGGATGGAATTCGACGTTGGAGAGTTTGTGGTTTGGT GTTCCGATGGCGATTTGGCCGCTTTACGCTGAACAGAAGTTTAACGCTTTCGAGATGGTGGA AGAGCTTGGTTTGGCTGTGGAGATCAAGAAGCATTGGCGAGGAGATCTTTTGTTGGGGAGGT CGGAGATTGTGACGGCGGAGGAGATTGAGAAAGGAΆTCATATGTTTGATGGAGCAAGACAGT GACGTCAGGAAGAGAGTGAATGAGATCAGCGAGAAGTGCCACGTGGCTTTAATGGACGGTGG ATCGTCAGAAACTGCTTTGAAAAGATTTATTCAΆGACGTAACGGAGAATATTGCTTGGTCGG AAACTGAAAGCTAG
>UGT71B7
ATGAAATTTGAGCTTGTTTTCATCCCCTATCCCGGAATCGGTCATCTCCGATCAACGGTAGA
AATGGCAAAGCTACTAGTGGACCGTGAAACTCGTCTCTCTATCTCCGTTATCATCCTTCCTT TCATTTCCGAAGGCGAAGTCGGTGCTTCCGATTACATCGCAGCCCTCTCCGCCTCATCCAAC AACCGCCTCCGCTACGAAGTTATCTCCGCCGTAGATCAACCAACCATCGAGATGACGACAAT TGAAATCCATATGAAGAΆCCAAGAACCAAAGGTGAGAΆGCACCGTTGCAAAACTCCTTGAAG ACTATTCGTCTAAACCGGACTCGCCGAAGATCGCTGGCTTTGTTCTAGACATGTTTTGCACT TCGATGGTAGATGTAGCGAACGAGTTTGGTTTCCCGAGTTATATGTTTTACACCTCCAGTGC CGGGATTCTCTCAGTTACATATCATGTTCAAATGTTGTGCGATGAGAACAAGTACGATGTTA GTGAAAATGATTATGCAGACTCGGAAGCTGTGTTGAACTTTCCGAGTTTGAGTCGTCCTTAT CCGGTGAAGTGTCTTCCTCACGCTCTGGCAGCTAATATGTGGCTCCCGGTGTTTGTAAACCA AGCGAGAAAGTTTAGGGAGATGAAAGGTATTTTGGTAAATACTGTTGCTGAGCTTGAACCTT ATGTGTTAAAGTTTCTTTCTAGTAGTGATACTCCTCCTGTTTATCCTGTTGGACCATTGTTG CATCTTGAGAACCAACGTGATGATTCTAAGGACGAGAAACGGTTGGAGATTATACGGTGGTT GGATCAGCAACCACCAAGTTCGGTTGTGTTTCTCTGCTTTGGGAGCATGGGAGGCTTCGGTG AGGAACAAGTAAGAGAGATCGCAATCGCGTTAGAGCGAAGTGGGCACCGGTTTCTCTGGTCT CTTCGTCGCGCATCTCCGAATATATTCAAAGAACTTCCAGGAGAGTTTACTAATCTAGAGGA AGTTCTCCCGGAAGGATTCTTTGATCGAACGAAAGATATAGGTAAAGTGATTGGATGGGCTC CACAAGTAGCCGTTCTTGCGAATCCGGCTATAGGAGGTTTCGTAACTCATTGCGGGTGGAAT TCTACGCTAGAGAGTCTTTGGTTTGGTGTTCCAACAGCTGCATGGCCGTTATACGCAGAGCA GAAGTTCAATGCTTTCTTAATGGTGGAGGAGCTTGGATTGGCGGTGGAGATAAGGAAGTATT GGCGAGGTGAACATTTGGCGGGATTACCGACGGCTACTGTGACAGCGGAGGAGATAGAGAAA GCAATCATGTGTCTAATGGAACAAGATAGTGACGTGAGGAAAAGAGTGAAGGATATGAGCGA GAAATGCCATGTGGCTTTAATGGATGGTGGATCGTCGCGTACTGCGTTGCAAAAGTTTATTG AAGAGGTTGCGAAGAATATAGTTTCACTAGATAAGGAATTTGAGCATGTAGCTCTTAAATGA
>UGT71B8
ATGAACAAATTTGCGCTTGTCTTCGTACCATTTCCTATACTTGGTCATCTCAAATCAACCGC
CGAGATGGCTAAGCTACTAGTGGAGCAAGAAACTCGCCTCTCTATCTCCATTATCATCCTTC
CTCTTCTTTCCGGAGACGACGTCAGTGCTTCCGCTTATATCTCAGCTCTTTCCGCCGCATCC
AACGACCGCCTTCACTATGAAGTGATCTCGGACGGAGATCAACCAACCGTCGGGTTACATGT
CGATAACCACATCCCGATGGTGAAACGTACCGTTGCAAAACTCGTTGATGACTACTCAAGGC
GGCCGGACTCGCCGAGGCTCGCTGGTTTAGTTGTTGACATGTTTTGTATCTCGGTGATAGAC
GTGGCTAATGAGGTTAGTGTTCCGTGTTACTTGTTTTACACGTCAAACGTTGGGATTCTTGC
TCTTGGGTTACATATTCAGATGTTGTTTGATAAGAAGGAGTACAGTGTCAGTGAAACTGATT
TTGAAGACTCGGAAGTTGTGTTGGATGTTCCGAGTTTGACTTGTCCTTATCCGGTGAAGTGT
CTTCCTTATGGTTTGGCAACGAAAGAGTGGCTTCCTATGTATCTAAATCAAGGTAGAAGATT
CAGAGAGATGAAAGGTATTTTGGTAAATACTTTTGCTGAGCTTGAACCTTATGCGTTGGAGT
CTCTTCACTCTAGTGGTGATACTCCTCGTGCTTATCCAGTGGGACCATTGTTGCATCTCGAG
AACCATGTTGACGGTTCTAAAGACGAGAAGGGTTCGGACATTTTACGGTGGTTAGATGAACA
ACCACCTAAATCGGTAGTGTTCCTCTGCTTTGGAAGCATAGGAGGCTTTAACGAGGAACAAG
CAAGAGAAATGGCCATTGCACTTGAGAGAAGTGGTCACCGCTTCTTGTGGTCTCTTCGCCGT
GCATCTCGAGATATAGATAAGGAACTTCCCGGAGAATTCAAGAATCTTGAAGAAATTCTCCC
GGAAGGATTCTTTGATCGGACAAAGGATAAAGGAAAGGTGATCGGATGGGCTCCACAAGTAG
CCGTGCTGGCTAAGCCAGCAATCGGAGGTTTTGTTACTCATTGCGGGTGGAACTCGATACTC
GAGAGTCTTTGGTTCGGTGTTCCTATAGCGCCATGGCCGTTATACGCTGAGCAGAAGTTTAA
TGCTTTCGTGATGGTGGAGGAGCTTGGTTTGGCAGTGAAGATAAGAAAGTATTGGCGAGGCG
ATCAGTTGGTGGGAACGGCGACGGTCATAGTGACGGCAGAGGAGATAGAGAGAGGAATCAGA
TGTTTGATGGAGCAAGATAGTGACGTGAGGAATAGAGTGAAGGAGATGAGTAAGAAATGTCA
CATGGCTTTAAAGGATGGTGGCTCGTCTCAATCTGCTTTGAAATTATTTATTCAAGACGTTA
CGAAGTATATTGCTTGA
>UGT71C1
ATGGGGAAGCAAGAAGATGCAGAGCTCGTCATCATACCTTTCCCTTTCTCCGGACACATTCT
CGCAACAATCGAACTCGCCAAACGTCTCATAAGTCAAGACAATCCTCGGATCCACACCATCA
CCATCCTCTATTGGGGATTACCTTTTATTCCTCAAGCTGACACAATCGCTTTCCTCCGATCC
CTAGTCAAAAATGAGCCTCGTATCCGTCTCGTTACGTTGCCCGAAGTCCAAGACCCTCCACC
AATGGAACTCTTTGTGGAATTTGCCGAATCTTACATTCTTGAATACGTCAAGAAAATGGTTC
CCATCATCAGAGAAGCTCTCTCCACTCTCTTGTCTTCCCGCGATGAATCGGGTTCAGTTCGT GTGGCTGGATTGGTTCTTGACTTCTTCTGCGTCCCTATGATCGATGTAGGAAACGAGTTTAA TCTCCCTTCTTACATTTTCTTGACGTGTAGCGCAGGGTTCTTGGGTATGATGAAGTATCTTC CAGAGAGACACCGCGAAATCAAATCGGAATTCAACCGGAGCTTCAACGAGGAGTTGAATCTC ATTCCTGGTTATGTCAACTCTGTTCCTACTAAGGTTTTGCCGTCAGGTCTATTCATGAAAGA GACCTACGAGCCTTGGGTCGAACTAGCAGAGAGGTTTCCTGAAGCTAAGGGTATTTTGGTTA ATTCATACACAGCTCTCGAGCCAAACGGTTTTAAATATTTCGATCGTTGTCCGGATAACTAC CCAACCATTTACCCAATCGGGCCGATATTATGCTCCAACGACCGTCCGAATTTGGACTCATC GGAACGAGATCGGATCATAACTTGGCTAGATGACCAACCCGAGTCATCGGTCGTGTTCCTCT GTTTCGGGAGCTTGAAGAATCTCAGCGCTACTCAGATCAACGAGATAGCTCAAGCCTTAGAG ATCGTTGACTGCAAATTCATCTGGTCGTTTCGAACCAACCCGAAGGAGTACGCGAGCCCTTA CGAGGCTCTACCACACGGGTTCATGGACCGGGTCATGGATCAAGGCATTGTTTGTGGTTGGG CTCCTCAAGTTGAAATCCTAGCCCATAAAGCTGTGGGAGGATTCGTATCTCATTGTGGTTGG AACTCGATATTGGAGAGTTTGGGTTTCGGCGTTCCAATCGCCACGTGGCCGATGTACGCGGA ACAACAACTAAACGCGTTCACGATGGTGAAGGAGCTTGGTTTAGCCTTGGAGATGCGGTTGG ATTACGTGTCGGAAGATGGAGATATAGTGAAAGCTGATGAGATCGCAGGAACCGTTAGATCT TTAATGGACGGTGTGGATGTGCCGAAGAGTAAAGTGAAGGAGATTGCTGAGGCGGGAAAAGA AGCTGTGGACGGTGGATCTTCGTTTCTTGCGGTTAAAAGATTCATCGGTGACTTGATCGACG GCGTTTCTATAAGTAAGTAG
>UGT71C2
ATGGCGAAGCAGCAAGAAGCAGAGCTCATCTTCATCCCATTTCCAATCCCCGGACACATTCT CGCCACAATCGAACTCGCGAAACGTCTCATCAGTCACCAACCTAGTCGGATCCACACCATCA CCATCCTCCATTGGAGCTTACCTTTTCTTCCTCAATCTGACACTATCGCCTTCCTCAAATCC CTAATCGAAACAGAGTCTCGTATCCGTCTCATTACCTTACCCGATGTCCAAAACCCTCCACC AΆTGGAGCTATTTGTGAAAGCTTCCGAATCTTACATTCTTGAATACGTCAAGAAAATGGTTC CTTTGGTCAGAAACGCTCTCTCCACTCTCTTGTCTTCTCGTGATGAATCGGATTCAGTTCAT GTCGCCGGATTAGTTCTTGATTTCTTCTGTGTCCCTTTGATCGATGTCGGAAACGAGTTTAA TCTCCCTTCTTACATCTTCTTGACGTGTAGCGCAAGTTTCTTGGGTATGATGAAGTATCTTC TGGAGAGAAACCGCGAAACCAAACCGGAACTTAACCGGAGCTCTGACGAGGAAACAATATCA GTTCCTGGTTTTGTTAACTCCGTTCCGGTTAAAGTTTTGCCACCGGGTTTGTTCACGACTGA GTCTTACGAAGCTTGGGTCGAAATGGCGGAAAGGTTCCCTGAAGCCAAGGGTATTTTGGTCA ATTCATTTGAATCTCTAGAACGTAACGCTTTTGATTATTTCGATCGTCGTCCGGATAATTAC CCACCCGTTTACCCAATCGGGCCAATTCTATGCTCCAACGATCGTCCGAATTTGGATTTATC GGAACGAGACCGGATCTTGAAATGGCTCGATGACCAACCCGAGTCATCTGTTGTGTTTCTCT GCTTCGGGAGCTTGAAGAGTCTCGCTGCGTCTCAGATTAAAGAGATCGCTCAAGCCTTAGAG CTCGTCGGAATCAGATTCCTCTGGTCGATTCGAACGGACCCGAAGGAGTACGCGAGCCCGAA CGAGATTTTACCGGACGGGTTTATGAACCGAGTCATGGGTTTGGGCCTTGTTTGTGGTTGGG CTCCTCAAGTTGAAATTCTGGCCCATAAAGCAATTGGAGGGTTCGTGTCACACTGCGGTTGG AACTCGATATTGGAGAGTTTGCGTTTCGGAGTTCCAATTGCCACGTGGCCAATGTACGCGGA ACAACAACTAAACGCGTTCACGATTGTGAAGGAGCTTGGTTTGGCGTTGGAGATGCGGTTGG ATTACGTGTCGGAATATGGAGAAATCGTGAAAGCTGATGAAATCGCAGGAGCCGTACGATCT TTGATGGACGGTGAGGATGTGCCGAGGAGGAAACTGAAGGAGATTGCGGAGGCGGGAAAAGA GGCTGTGATGGACGGTGGATCTTCGTTTGTTGCGGTTAΆAAGATTCATAGATGGGCTTTGA
>UGT71C3
ATGAAAGCAGAAGCAGAGATCATCTTCGTTACATATCCATCCCCTGGTCATCTTCTTGTCTC
CATTGAATTCGCTAAATCTCTCATCAAACGTGATGATCGCATCCACACCATCACCATCCTCT
ACTGGGCTTTACCTCTCGCTCCTCAAGCCCACCTTTTCGCTAAGTCCCTCGTTGCTTCACAG
CCTCGAATCCGTCTCCTTGCGTTGCCTGATGTTCAAAACCCTCCACCATTGGAACTCTTCTT
TAAAGCTCCCGAAGCTTATATTCTTGAGTCCACCAAGAAAACAGTTCCTTTAGTCAGAGACG
CTCTCTCCACTCTAGTTTCTTCACGTAAAGAATCCGGTTCGGTTCGTGTAGTCGGTTTGGTT
ATCGATTTTTTTTGTGTTCCAATGATCGAAGTGGCAAACGAGCTTAACCTTCCTTCTTACAT
CTTCCTAACGTGTAACGCTGGGTTTTTAAGTATGATGAAGTATCTCCCTGAGAGACATCGCA
TAACCACTTCTGAGCTAGATTTAAGCTCCGGCAACGTAGAACATCCAATTCCTGGCTACGTC
TGCTCCGTGCCGACGAAGGTTTTGCCTCCAGGTCTATTCGTGAGAGAGTCCTACGAGGCTTG
GGTCGAGATTGCAGAGAAGTTCCCTGGAGCCAAGGGCATTTTGGTAAACTCAGTCACATGTC TTGAGCAGAATGCATTTGATTACTTCGCTCGTCTTGATGAGAACTATCCTCCGGTTTACCCG GTCGGACCGGTTCTTAGTTTGAAGGATCGTCCGTCTCCAAATCTGGACGCATCGGACCGGGA TCGGATCATGAGATGGCTCGAGGACCAGCCGGAGTCGTCAATTGTGTATATCTGCTTCGGAA GCCTCGGAATCATTGGCAAGCTGCAGATTGAAGAGATAGCTGAAGCCTTGGAACTCACCGGC CACAGGTTTCTTTGGTCAATACGTACAAATCCGACGGAGAAAGCGAGCCCGTACGATCTGTT GCCGGAGGGATTTCTCGATCGGACGGCCAGTAAGGGATTGGTGTGTGATTGGGCCCCGCAAG TAGAAGTTCTGGCCCATAAAGCGCTCGGAGGATTCGTGTCTCACTGCGGTTGGAACTCTGTA CTGGAGAGCTTATGGTTCGGTGTTCCGATCGCCACGTGGCCAATGTACGCTGAGCAACAGTT AAACGCATTCTCGATGGTGAAGGAGTTAGGGTTAGCCGTGGAGCTGCGTTTAGACTACGTTT CGGCGTAeGGAGAGATAGTAAAAGCTGAGGAGATCGCGGGAGCCATACGATCATTGATGGAC GGTGAGGATACGCCGAGGAAGAGAGTGAAGGAGATGGCGGAAGCGGCGAGGAATGCTTTGAT GGACGGAGGATCTTCGTTTGTTGCGGTTAAACGATTTCTCGACGAGTTGATCGGCGGAGATG TTTAG
>UGT71C4
ATGGTGAAGGAAACAGAGCTAATCTTCATTCCAGTTCCATCCACAGGTCATATTCTCGTCCA
TATTGAATTCGCCAAGCGTCTCATCAATCTCGACCATCGGATCCACACCATCACTATTCTCA
ACTTATCCTCACCCTCTTCTCCTCACGCCTCCGTCTTCGCCAGATCTCTCATCGCTTCCCAG
CCCAAAATCCGTCTCCACGACCTTCCCCCTATCCAAGATCCTCCTCCATTCGATCTTTACCA
AAGAGCTCCCGAAGCTTACATAGTAAAACTCATCAAGAAAAATACTCCTCTGATAAAAGACG
CCGTCTCCAGCATCGTCGCGTCGCGTCGTGGAGGCTCAGATTCGGTTCAAGTCGCCGGTTTG
GTTCTCGATTTATTCTGCAATTCATTGGTAAAAGATGTTGGCAACGAGCTTAATCTTCCTTC
TTACATATACCTTACGTGTAACGCTAGATACTTGGGGATGATGAAATATATTCCGGATCGGC
ATCGGAAAATCGCATCTGAGTTCGATTTGAGCTCCGGCGATGAAGAATTGCCGGTTCCGGGA
TTCATAAACGCTATTCCGACGAAATTTATGCCGCCTGGATTGTTCAATAAGGAAGCTTACGA
GGCTTACGTAGAGCTAGCGCCGAGATTCGCAGATGCGAAGGGTATTTTGGTTAATTCCTTCA
CGGAGCTTGAGCCGCACCCGTTTGACTATTTCTCTCACCTGGAGAAATTCCCTCCGGTTTAC
CCGGTCGGACCGATTCTCAGCTTGAAAGATCGAGCGAGTCCGAACGAAGAAGCAGTCGATCG
GGATCAGATCGTTGGGTGGCTCGATGATCAGCCGGAGTCATCGGTGGTGTTCCTCTGTTTCG
GGAGCAGAGGAAGCGTTGATGAGCCGCAAGTGAAGGAGATAGCTCGAGCTTTGGAACTCGTC
GGCTGCAGATTTCTTTGGTCAATTAGAACAAGCGGCGACGTCGAGACGAATCCTAACGATGT
GTTGCCGGAGGGGTTCATGGGCCGAGTAGCAGGCCGAGGTTTGGTATGTGGTTGGGCTCCAC
AAGTGGAAGTGTTGGCCCATAAAGCAATAGGAGGATTTGTGTCTCACTGTGGTTGGAACTCC
ACGCTTGAAAGCTTATGGTTCGGGGTTCCTGTCGCAACGTGGCCGATGTACGCAGAGCAACA
GCTTAACGCCTTCACGCTGGTGAAAGAGCTTGGGCTTGCGGTGGACCTGCGGATGGATTACG
TGTCGAGTCGTGGGGGTTTGGTGACTTGTGATGAGATAGCCAGAGCCGTACGATCTTTGATG
GACGGTGGAGATGAGAAGAGAAAAAAGGTTAAGGAGATGGCTGATGCGGCAAGGAAGGCTTT
GATGGATGGAGGATCGTCTTCTTTGGCAACTGCTCGATTCATCGCAGAATTGTTTGAAGATG
GTTCGTCGTGCTAA
>UGT71C5
ATGAAGACAGCAGAGCTCATATTCGTTCCTCTGCCGGAGACCGGCCATCTCTTGTCAACGAT
CGAGTTTGGAAAGCGTCTACTCAATCTAGACCGTCGGATTTCTATGATTACAATCCTCTCCA
TGAATCTTCCTTACGCTCCTCACGCCGACGCTTCTCTTGCTTCGCTAACAGCCTCCGAGCCT
GGTATCCGAATCATCAGTCTCCCGGAGATCCACGATCCACCTCCGATCAAGCTTCTTGACAC
TTCCTCCGAGACTTACATCCTCGATTTCATCCATAAAAACATACCTTGTCTCAGAAAAACCA
TCCAAGATTTAGTCTCATCATCATCATCTTCCGGAGGTGGTAGTAGTCATGTCGCCGGCTTG
ATTCTTGATTTCTTCTGCGTTGGTTTGATCGACATCGGCCGTGAGGTAAACCTTCCTTCCTA
TATCTTCATGACTTCCAACTTTGGTTTCTTAGGGGTTCTACAGTATCTCCCGGAACGACAAC
GTTTGACTCCGTCGGAGTTCGATGAGAGCTCCGGCGAGGAAGAGTTACATATTCCGGCGTTT
GTGAACCGTGTTCCCGCCAAGGTTCTGCCGCCAGGTGTGTTCGATAAACTCTCTTACGGGTC
TCTGGTCAAAATCGGCGAGCGATTACATGAAGCCAAGGGTATTTTGGTTAATTCATTTACCC
AAGTGGAGCCTTATGCTGCTGAACATTTTTCTCAAGGACGAGATTACCCTCACGTGTATCCT
GTTGGGCCGGTTCTCAACTTAACGGGCCGTACAAATCCGGGTCTAGCTTCGGCCCAATATAA
AGAGATGATGAAGTGGCTTGACGAGCAACCAGACTCGTCGGTTTTGTTCCTGTGTTTCGGGA
GCATGGGAGTCTTCCCTGCACCTCAGATCACAGAGATTGCTCACGCGCTCGAGCTTATCGGG TGCAGGTTCATCTGGGCGATCCGTACGAACATGGCGGGAGATGGCGATCCTCAGGAGCCGCT TCCAGAAGGATTTGTCGATCGAACAATGGGCCGTGGAATTGTGTGTAGTTGGGCTCCACAAG TGGATATCTTGGCCCACAAGGCAACAGGTGGATTCGTTTCTCACTGCGGGTGGAATTCCGTC CAAGAGAGTCTATGGTACGGTGTACCTATTGCAACGTGGCCAATGTATGCGGAGCAACAACT GAACGCATTTGAGATGGTGAAGGAGTTGGGCTTAGCAGTGGAGATAAGGCTTGACTACGTGG CGGATGGTGATAGGGTTACTTTGGAGATCGTGTCAGCCGATGAAATAGCCACAGCCGTCCGA TCATTGATGGATAGTGATAACCCCGTGAGAAAGAAGGTTATAGAAAAATCTTCAGTGGCGAG GAAAGCTGTTGGTGATGGTGGGTCTTCTACGGTGGCCACATGTAATTTTATCAAAGATATTC TTGGGGATCACTTTTGA
>UGT71D1
ATGCGGAATGTAGAGCTCATCTTCATCCCCACACCAACCGTTGGTCATCTTGTTCCGTTTCT TGAATTTGCTAGGCGTCTCATTGAGCAAGATGATAGGATCCGTATCACAATCCTCTTGATGA AACTACAAGGTCAGTCTCATCTAGACACTTATGTTAAATCAATTGCCTCCTCTCAACCGTTT GTTAGATTCATTGATGTCCCTGAGTTAGAGGAGAAACCTACACTTGGTAGTACACAATCTGT GGAAGCTTATGTGTATGATGTTATTGAGAGAAATATCCCTCTTGTGAGGAATATAGTCATGG ATATTTTAACTTCTCTTGCATTGGATGGAGTTAAGGTCAAGGGATTAGTTGTTGACTTTTTC TGTCTCCCTATGATTGACGTTGCTAAAGATATAAGTCTCCCTTTCTATGTGTTCTTGACTAC AAATTCCGGGTTCTTAGCTATGATGCAGTATCTAGCAGATCGACATAGTAGAGATACATCGG TTTTTGTAAGAAACTCGGAAGAAATGTTGTCGATACCTGGATTTGTAAACCCTGTCCCAGCC AATGTTCTGCCGTCAGCTCTGTTTGTTGAAGATGGTTATGATGCTTACGTTAAGCTGGCCAT ATTGTTTACAAAGGCCAATGGAATCCTAGTGAATAGCTCCTTTGATATTGAGCCTTACTCTG TGAATCATTTTCTTCAAGAACAGAATTATCCTTCTGTTTATGCTGTTGGCCCCATATTTGAC TTGAAAGCCCAGCCTCATCCAGAGCAGGACCTAACCCGTCGTGACGAGTTGATGAAATGGCT TGATGATCAACCCGAGGCATCGGTTGTATTCCTTTGTTTTGGGAGTATGGCAAGGTTAAGAG GTTCTCTAGTGAAGGAAATAGCTCATGGACTTGAGCTATGTCAATATAGATTCCTCTGGTCA CTCCGTAAΆGAAGAGGTGACAAAGGATGATTTGCCAGAGGGGTTCCTTGACCGTGTCGATGG ACGTGGAATGATATGTGGTTGGTCTCCTCAGGTAGAAATACTGGCCCATAAGGCAGTGGGAG GCTTTGTTTCTCACTGTGGATGGAACTCAATAGTAGAGAGTTTGTGGTTTGGCGTGCCAATT GTGACATGGCCAATGTATGCAGAGCAACAACTCAATGCGTTTCTGATGGTGAAGGAACTGAA GCTAGCTGTGGAGCTGAAGCTTGATTACAGGGTACATAGTGATGAGATAGTAAACGCAAACG AGATAGAGACCGCTATTCGTTATGTAATGGACACGGATAATAATGTTGTGAGGAAACGAGTG ATGGATATCTCGCAGATGATCCAGAGAGCTACGAAGAATGGTGGATCTTCGTTTGCCGCAAT TGAGAAATTCATATATGACGTGATAGGAATTAAGCCCTAG
>UGT71D2
ATGAGGAATGCAGAGCTCATCTTCATCCCAACACCAACTGTTGGTCATCTTGTTCCGTTTCT TGAATTTGCTAGGCGTCTCATTGAGCAGGATGATAGAATCCGTATCACCTTCCTCTTGATGA AGCAACAAGGTCAGTCTCATCTGGATTCCTATGTTAAGACAATTTCCTCGTCTCTGCCGTTT GTTAGATTTATTGATGTCCCTGAGTTAGAGGAGAAACCAACACTTGGTACACAGTCTGTGGA AGCCTATGTGTACGATTTTATTGAAACAAATGTCCCTCTTGTGCAAAATATAATCATGGGTA TCCTATCTTCTCCTGCATTTGATGGAGTTACGGTCAAGGGATTCGTTGCTGATTTTTTCTGT CTCCCGATGATTGATGTTGCAAAAGATGCAAGTCTTCCTTTTTATGTGTTCTTGACTTCAAA TTCCGGATTCCTAGCTATGATGCAGTATCTGGCATATGGACATAAGAAAGATACCTCAGTTT TTGCAAGAAACTCTGAAGAAATGTTGTCAATTCCTGGATTTGTAAACCCTGTCCCAGCCAAA GTACTGCCGTCAGCTCTGTTTATTGAGGATGGTTATGATGCTGACGTTAAACTGGCTATATT GTTTACAAAGGCTAATGGAATCCTAGTGAATACCTCCTTTGATATTGAGCCTACCTCTCTGA ATCATTTTCTTGGAGAAGAGAATTACCCTTCTGTTTATGCTGTTGGCCCCATATTTAACCCG AAGGCCCATCCTCATCCAGATCAAGACCTCGCCTGTTGTGACGAGTCGATGAAATGGCTTGA TGCTCAACCCGAGGCATCAGTTGTATTCCTTTGTTTTGGGAGTATGGGTAGCTTAAGAGGTC CTCTAGTGAAGGAAATAGCACATGGACTTGAGCTATGTCAGTATAGATTCCTCTGGTCACTC CGCACAGAAGAAGTGACAAATGATGATCTTTTGCCAGAGGGATTCATGGACCGTGTCAGTGG ACGGGGAATGATATGCGGTTGGTCTCCTCAGGTGGAAATACTGGCCCATAAAGCAGTGGGAG GTTTTGTTTCTCATTGTGGATGGAACTCAATAGTAGAGAGTTTATGGTTTGGTGTGCCAATT GTGACATGGCCAATGTATGCAGAGCAΆCAGCTCAATGCGTTTCTGATGGTGAAGGAACTGAA GCTCGCAGTGGAGCTGAAACTCGATTATAGTGTACATAGTGGTGAGATTGTAAGTGCAAACG AGATAGAGACAGCGATTTCTTGTGTAATGAACAAGGATAATAATGTTGTGAGGAAACGAGTG ATGGATATCTCGCAGATGATCCAGAGAGCTACGAAGAATGGTGGATCTTCGTTTGCCGCAAT TGAGAAATTCATACATGACGTGATAGGAACCAGGACTTAG
>UGT72B1
ATGGAGGAATCCAAAACACCTCACGTTGCGATCATACCAAGTCCGGGAATGGGTCATCTCAT ACCACTCGTCGAGTTTGCTAAACGACTCGTCCATCTTCACGGCCTCACCGTTACCTTCGTCA TCGCCGGCGAAGGTCCACCATCAAAAGCTCAGAGAACCGTCCTCGACTCTCTCCCTTCTTCA ATCTCCTCCGTCTTTCTCCCTCCTGTTGATCTCACCGATCTCTCTTCGTCCACTCGCATCGA ATCTCGGATCTCCCTCACCGTGACTCGTTCAAACCCGGAGCTCCGGAAAGTCTTCGACTCGT TCGTGGAGGGAGGTCGTTTGCCAACGGCGCTCGTCGTCGATCTCTTCGGTACGGACGCTTTC GACGTGGCCGTAGAATTTCACGTGCCACCGTATATTTTCTACCCAACAACGGCCAACGTCTT GTCGTTTTTTCTCCATTTGCCTAAACTAGACGAAACGGTGTCGTGTGAGTTCAGGGAATTAA CCGAACCGCTTATGCTTCCTGGATGTGTACCGGTTGCCGGGAAAGATTTCCTTGACCCGGCC CAAGACCGGAAAGACGATGCATACAAATGGCTTCTCCATAACACCAAGAGGTACAAAGAAGC CGAAGGTATTCTTGTGAATACCTTCTTTGAGCTAGAGCCAΆATGCTATAAAGGCCTTGCAAG AACCGGGTCTTGATAAACCACCGGTTTATCCGGTTGGACCGTTGGTTAACATTGGTAAGCAA GAGGCTAAGCAAACCGAAGAGTCTGAATGTTTAAAGTGGTTGGATAACCAGCCGCTCGGTTC GGTTTTATATGTGTCCTTTGGTAGTGGCGGTACCCTCACATGTGAGCAGCTCAATGAGCTTG CTCTTGGTCTTGCAGATAGTGAGCAACGGTTTCTTTGGGTCATACGAAGTCCTAGTGGGATC GCTAΆTTCGTCGTATTTTGATTCACATAGCCAAACAGATCCATTGACATTTTTACCACCGGG ATTTTTAGAGGGGACTAAAAΆAAGAGGTTTTGTGATCCCTTTTTGGGCTCCACAAGCCCAAG TCTTGGCGCATCCATCCACGGGAGGATTTTTAACTCATTGTGGATGGAATTCGACTCTAGAG AGTGTAGTAAGCGGTATTCCACTTATAGCATGGCCATTATACGCAGAACAGAAGATGAATGC GGTTTTGTTGAGTGAAGATATTCGTGCGGCACTTAGGCCGCGTGCCGGGGACGATGGGTTAG TTAGAAGAGAAGAGGTGGCTAGAGTGGTAAAAGGATTGATGGAAGGTGAAGAAGGCAAAGGA GTGAGGAACAAGATGAAGGAGTTGAAGGAAGCAGCTTGTAGGGTGTTGAAGGATGATGGGAC TTCGACAAAAGCACTTAGTCTTGTGGCCTTAAAGTGGAAAGCCCACAAAAAAGAGTTAGAGC AAAATGGCAACCACTAA
>UGT72B2
ATGCAAΆAAATGGCAGATGGAΆACACTCCACATGTAGCAATCATACCAAGTCCCGGTATAGG TCACCTCATCCCACTCGTCGAGTTAGCAAAGCGACTCCTTGACAATCACGGTTTCACCGTCA CTTTCATCATCCCCGGCGATTCTCCTCCGTCTAAGGCTCAAAGATCCGTTCTCAACTCTCTC CCTTCCTCCATAGCCTCCGTCTTCCTCCCTCCCGCCGATCTTTCCGACGTTCCTTCGACAGC TCGAATCGAAACTCGGATATCGCTCACCGTGACTCGTTCCAACCCGGCGCTCCGGGAGCTTT TTGGCTCGTTATCGGCGGAGAAACGTCTCCCGGCGGTTCTCGTCGTCGATCTATTTGGTACG GATGCGTTCGACGTGGCTGCTGAGTTCCACGTGTCGCCATACATTTTCTATGCATCAAATGC CAACGTCCTCACGTTTCTGCTTCACTTGCCGAAGCTAGACGAAACGGTGTCGTGTGAGTTTA GGGAATTAACCGAACCGGTTATTATTCCCGGTTGTGTCCCCATAACCGGTAAGGATTTCGTC GATCCGTGTCAAGACCGAAAAGATGAATCATACAAATGGCTTCTACACAACGTCAAGAGATT CAAAGAAGCTGAAGGGATTCTAGTGAATTCCTTCGTCGATTTAGAGCCAAACACTATAAAGA TTGTACAΆGAACCGGCTCCTGATAΆACCACCGGTTTACCTGATTGGGCCGTTGGTTAACTCG GGTTCACACGATGCTGACGTGAACGATGAGTACAAATGTTTAAATTGGCTAGACAACCAACC ATTCGGGTCGGTTCTATACGTATCCTTTGGAAGCGGCGGAACACTCACGTTTGAGCAGTTCA TTGAGCTGGCTCTTGGCCTAGCGGAGAGTGGAAAACGGTTTCTTTGGGTCATACGAAGTCCG AGTGGGATAGCTAGTTCATCGTATTTCAATCCACAAAGCCGAAATGATCCATTTTCGTTTTT ACCACAAGGCTTCTTAGACCGAACCAAAGAAAAAGGTCTAGTGGTTGGGTCATGGGCTCCAC AGGCTCAAATTCTGACTCATACATCTATAGGTGGATTTTTAACTCATTGTGGATGGAATTCG AGTCTAGAAAGTATTGTAAACGGTGTACCGCTCATAGCATGGCCGTTATACGCGGAGCAAAA GATGAACGCATTGCTACTCGTGGATGTTGGTGCGGCTCTAAGAGCACGACTGGGTGAAGACG GGGTCGTAGGAAGGGAAGAAGTGGCGAGAGTGGTAAAAGGATTGATAGAAGGAGAAGAAGGG AATGCGGTAAGGAAAAAAATGAAAGAGTTGAAAGAAGGATCTGTTAGAGTCTTAAGGGACGA TGGATTCTCTACCAAATCGCTTAATGAAGTTTCGTTGAAGTGGAAAGCCCACCAACGAAAGA TCGACCAAGAACAGGAATCATTTCTATGA >UGT72B3
ATGAGCATAGATATTTTTCAAGAAATAAGAATAAAGAAAATTCTACTCTTAATGGCGGAAGC
AAACACTCCACACATAGCAATCATGCCGAGTCCCGGTATGGGTCACCTTATCCCATTCGTCG
AGTTAGCAAAGCGACTCGTTCAGCACGACTGTTTCACCGTCACAATGATCATCTCCGGTGAA
ACTTCGCCGTCTAAGGCACAAAGATCCGTTCTCAACTCTCTCCCTTCCTCCATAGCCTCCGT
ATTTCTCCCTCCCGCCGATCTTTCCGATGTTCCCTCCACAGCGCGAATCGAAACTCGGGCCA
TGCTCACCATGACTCGTTCCAATCCGGCGCTCCGGGAGCTTTTTGGCTCTTTATCAACGAAG
AAAAGTCTCCCGGCGGTTCTCGTCGTCGATATGTTTGGTGCGGATGCGTTCGACGTGGCCGT
TGACTTCCACGTGTCACCATACATTTTCTATGCATCCAATGCAAACGTCTTGTCGTTTTTTC
TTCACTTGCCGAAACTAGACAAAACGGTGTCGTGTGAGTTTAGGTACTTAACCGAACCGCTT
AAGATTCCCGGCTGTGTCCCGATAACCGGTAAGGACTTTCTTGATACGGTTCAAGACCGAAA
CGACGACGCATACAAATTGCTTCTCCATAACACCAAGAGGTACAAAGAAGCTAAAGGGATTC
TAGTGAATTCCTTCGTTGATTTAGAGTCGAATGCAATAAAGGCCTTACAAGAACCGGCTCCT
GATAAACCAACGGTATACCCGATTGGGCCGCTGGTTAACACAAGTTCATCTAATGTTAACTT
GGAAGACAAGTTCGGATGTTTAAGTTGGCTAGACAACCAACCATTCGGCTCGGTTCTATACA
TATCATTTGGAAGCGGCGGAACACTTACATGTGAGCAGTTTAATGAGCTTGCTATTGGTCTT
GCGGAGAGCGGAAAACGGTTTATTTGGGTCATACGAAGTCCAAGCGAGATAGTTAGTTCGTC
GTATTTCAATCCACACAGCGAGACAGACCCCTTTTCGTTTTTACCAATTGGGTTCTTAGACC
GAACCAAAGAGAAAGGTTTGGTGGTTCCATCATGGGCTCCACAGGTTCAAATCCTGGCTCAT
CCATCCACATGCGGGTTTTTAACACACTGTGGATGGAATTCGACCTTAGAAAGCATTGTAAA
CGGTGTACCACTCATAGCGTGGCCTTTATTCGCGGAGCAAAAGATGAATACATTGCTACTCG
TGGAGGATGTTGGAGCGGCTCTAAGAATCCATGCGGGTGAAGATGGGATTGTACGGAGGGAA
GAAGTGGTGAGAGTGGTGAAGGCACTGATGGAAGGTGAAGAGGGAAAAGCCATAGGAAATAA
AGTGAAGGAGTTGAAAGAAGGAGTTGTTAGAGTCTTGGGTGACGATGGATTGTCCAGCAAGT
CATTTGGTGAAGTTTTGTTAAAGTGGAAAACGCACCAGCGAGATATCAACCAAGAGACGTCC
CACTAA
>UGT72C1
ATGGAACTTCACGGAGCTCTAGTGGCTAGTCCGGGCATGGGACATGCCGTACCCATCTTAGA ACTCGGTAAACATCTCCTGAACCACCACGGGTTCGACCGTGTCACTGTCTTCCTAGTCACAG ACGATGTCTCACGTTCGAAATCCCTAATTGGAΆAAACGTTGATGGAAGAAGATCCAΆΆATTT GTGATCAGGTTTATTCCACTCGATGTTTCGGGTCAAGATCTGAGTGGTTCACTATTGACTAA ACTAGCAGAGATGATGAGGAAGGCATTACCAGAGATCAAGTCTTCAGTCATGGAGTTAGAAC CGCGGCCTAGGGTTTTCGTAGTTGACTTGTTGGGCACGGAAGCTTTAGAGGTGGCTAAGGAG CTTGGGATCATGAGAAAACATGTTCTGGTTACTACCAGTGCTTGGTTTCTAGCTTTTACGGT TTATATGGCGAGTCTTGACAAACAGGAGTTGTATAAGCAGTTGAGTAGCATAGGAGCATTGC TTATACCCGGATGCAGCCCGGTTAAGTTTGAGCGGGCTCAAGATCCGAGAAAATATATTCGG GAACTCGCTGAGTCTCAGCGTATTGGGGATGAGGTGATAACCGCAGATGGGGTGTTTGTGAA TACGTGGCACAGTCTGGAGCAAGTGACCATCGGGTCTTTCTTGGATCCAGAGAATCTCGGTC GGGTTATGAGAGGAGTGCCGGTTTATCCTGTTGGACCGCTGGTTAGACCAGCAGAACCAGGT TTGAAACATGGCGTGCTGGACTGGCTTGACTTACAACCCAAAGAGTCAGTGGTTTATGTTCT TTTGGGAGTGGTGGGGGCACTAACCTTCGAGCAGACAAACGAGCTGGCTTACGGTTTGGAGC TGACTGGCCACAGATTTGTTTGGGTAGTCAGACCACCGGCTGAAGACGACCCATCGGCATCA ATGTTCGACAAGACCAAGAATGAGACAGAACCTCTCGATTTCTTACCCAACGGGTTTCTAGA CCGAACCAAAGACATCGGTTTGGTGGTCCGTACATGGGCACCACAAGAAGAGATTCTGGCAC ACAAGTCAACAGGAGGGTTTGTGACTCACTGCGGATGGAACTCAGTTTTGGAGAGTATTGTG AATGGTGTGCCAATGGTAGCTTGGCCGTTGTACTCAGAGCAGAAGATGAACGCGAGGATGGT TTCTGGGGAGCTAAAGATTGCGTTGCAGATTAATGTTGCAGATGGGATTGTAAAGAAGGAGG TGATAGCTGAAATGGTGAAGAGAGTGATGGATGAAGAAGAAGGAAAAGAGATGAGAAAGAAT GTTAAGGAACTGAAGAAGACAGCAGAAGAAGCTCTCAACATGACTCACATTCCATCTGCTTA CTTCACCTAA
>UGT72D1
ATGGACCAGCCTCACGCGCTTCTAGTGGCTAGCCCTGGCTTGGGTCACCTCATCCCTATCCT GGAGCTCGGCAACCGTCTCTCCTCCGTCCTAAACATCCACGTCACCATTCTCGCGGTCACCT CCGGCTCCTCTTCACCGACAGAAACCGAAGCCATACATGCAGCCGCGGCTAGAACAATCTGT CAAATTACGGAAATTCCCTCGGTGGATGTAGACAACCTCGTGGAGCCAGATGCTACAATTTT CACTAAGATGGTGGTGAAGATGCGAGCCATGAAGCCCGCGGTACGAGATGCCGTGAAATTAA TGAAACGAAAACCAACGGTCATGATTGTTGACTTTTTGGGTACGGAACTGATGTCCGTAGCC GATGACGTAGGCATGACGGCTAAATACGTTTACGTTCCAACTCATGCGTGGTTCTTGGCAGT CATGGTGTACTTGCCGGTGTTAGATACGGTAGTGGAAGGTGAGTATGTTGATATTAAGGAGC CTTTGAAGATACCGGGTTGTAAACCGGTCGGACCGAAGGAGCTGATGGAAACGATGTTAGAC CGGTCGGGCCAGCAATATAAAGAGTGTGTACGAGCTGGCTTAGAGGTACCTATGAGCGATGG TGTTTTGGTAAATACTTGGGAGGAGTTACAAGGAAACACTCTCGCTGCGCTTAGAGAGGACG AAGAATTGAGCCGGGTCATGAAAGTACCGGTTTATCCTATTGGGCCAATTGTTAGGACTAAC CAGCATGTAGACAAACCCAATAGTATATTCGAGTGGCTAGACGAGCAACGGGAAAGGTCAGT GGTGTTTGTGTGTTTAGGGAGCGGTGGAACGTTGACGTTTGAGCAAACAGTGGAACTCGCTT TGGGTTTAGAGTTAAGTGGTCAAAGGTTCGTTTGGGTTCTACGTAGGCCCGCTTCATATCTC GGGGCGATCTCCAGCGATGATGAACAGGTAAGTGCCAGTCTACCTGAAGGTTTCTTGGACCG CACGCGTGGTGTGGGGATTGTGGTTACGCAATGGGCACCACAAGTTGAGATCTTGAGCCATA GATCGATCGGTGGGTTCTTGTCTCACTGCGGTTGGAGTTCGGCTTTGGAAAGTTTGACTAAA GGAGTTCCGATCATCGCTTGGCCTCTTTATGCGGAGCAGTGGATGAATGCCACGTTATTGAC TGAGGAGATCGGTGTGGCCGTTCGTACATCGGAGTTACCGTCGGAGAGAGTCATCGGAAGGG AAGAAGTGGCATCTCTGGTGAGAAAGATTATGGCGGAAGAGGATGAΆGAAGGACAGAAΆATT AGGGCTAAAGCTGAGGAGGTGAGGGTTAGCTCCGAACGAGCTTGGAGTAAAGACGGGTCATC TTATAATTCTCTATTCGAATGGGCAAAACGATGTTATCTTGTACCGTGA
>UGT72E1
ATGAAGATTACAAAACCACATGTGGCCATGTTCGCTAGCCCCGGAATGGGCCACATCATCCC GGTGATCGAGCTCGGAAAACGCTTAGCTGGTTCCCACGGCTTCGATGTCACCATTTTCGTCC TTGAAACCGACGCAGCCTCAGCTCAATCTCAATTCCTTAACTCACCAGGCTGCGACGCGGCC CTTGTTGATATCGTTGGCCTCCCAACGCCCGATATCTCCGGTTTAGTCGACCCATCAGCCTT TTTTGGGATCAAGCTCTTGGTCATGATGCGTGAGACCATTCCTACCATCCGGTCAAAGATAG AGGAGATGCAACACAAACCAACGGCTCTGATCGTAGACTTGTTTGGTTTGGACGCGATACCG CTCGGTGGTGAGTTCAACATGTTGACTTATATCTTCATCGCTTCAAACGCACGTTTTCTCGC GGTGGCTTTGTTTTTCCCAACGTTGGACAAAGACATGGAAGAAGAGCACATAATCAAGAAGC AACCTATGGTTATGCCTGGATGTGAACCGGTTCGGTTTGAAGATACACTTGAAACATTCCTT GACCCAAACAGCCAACTCTACCGGGAATTTGTTCCTTTCGGTTCGGTTTTCCCAACGTGTGA TGGTATTATTGTGAATACATGGGATGATATGGAGCCCAAAACTTTGAAATCTCTTCAAGACC CAAAGCTCTTGGGTCGAATTGCTGGTGTACCGGTTTATCCAATTGGTCCTTTGTCTAGACCG GTTGATCCATCTAAAACTAATCATCCGGTTTTGGATTGGTTAAACAΆACAGCCGGACGAGTC GGTACTTTACATTTCATTTGGAAGCGGTGGCTCTCTCTCGGCTAAACAACTAACCGAATTGG CTTGGGGACTTGAGATGAGTCAGCAACGGTTCGTTTGGGTGGTTCGACCCCCGGTGGACGGT TCAGCTTGCAGTGCATATTTATCCGCTAACAGTGGTAAAATACGAGACGGTACACCTGATTA TCTCCCGGAAGGTTTTGTTAGCCGGACTCATGAGAGAGGCTTTATGGTCTCTTCTTGGGCTC CCCAAGCGGAGATCTTGGCCCACCAAGCCGTAGGTGGGTTTCTAACTCACTGCGGTTGGAAT TCGATTCTCGAGAGCGTCGTTGGTGGCGTTCCGATGATCGCGTGGCCACTTTTTGCGGAGCA GATGATGAACGCGACACTCCTCAΆCGAΆGAGCTTGGCGTTGCCGTCCGCTCTAAGAAΆCTAC CGTCGGAGGGAGTGATTACGAGGGCGGAGATCGAGGCGTTGGTGAGAAAGATCATGGTGGAG GAGGAΆGGTGCTGAGATGAGAΆAGAAGATAAAGAΆGCTGAAAGAGACCGCTGCCGAΆTCGCT GAGTTGCGACGGTGGAGTGGCGCATGAATCGTTGTCAAGAATCGCCGACGAGAGCGAGCATC TTTTGGAGCGTGTCAGGTGCATGGCACGTGGTGCCTAG
>UGT72E2
ATGCATATCACAAAACCACACGCCGCCATGTTTTCCAGTCCCGGAATGGGCCATGTCATCCC GGTGATCGAGCTTGGAAAGCGTCTCTCCGCTAACAACGGCTTCCACGTCACCGTCTTCGTCC TCGAAACCGACGCAGCCTCCGCTCAATCCAAGTTCCTAAACTCAACCGGCGTCGACATCGTC AAΆCTTCCATCGCCGGACATTTATGGTTTAGTGGACCCCGACGACCATGTAGTGACCAAGAT CGGAGTCATTATGCGTGCAGCAGTTCCAGCCCTCCGATCCAAGATCGCTGCCATGCATCAAA AGCCAACGGCTCTGATCGTTGACTTGTTTGGCACAGATGCGTTATGTCTCGCAAAGGAATTT AACATGTTGAGTTATGTGTTTATCCCTACCAACGCACGTTTTCTCGGAGTTTCGATTTATTA TCCAAΆTTTGGACAAAGATATCAAGGAAGAGCACACAGTGCAAAGAAACCCACTCGCTATAC CGGGGTGTGAACCGGTTAGGTTCGAAGATACTCTGGATGCATATCTGGTTCCCGACGAACCG GTGTACCGGGATTTTGTTCGTCATGGTCTGGCTTACCCAAAAGCCGATGGAATTTTGGTAAA TACATGGGAAGAGATGGAGCCCAAATCATTGAAGTCCCTTCTAAACCCAAAGCTCTTGGGCC GGGTTGCTCGTGTACCGGTCTATCCAATCGGTCCCTTATGCAGACCGATACAATCATCCGAA ACCGATCACCCGGTTTTGGATTGGTTAAACGAACAACCGAACGAGTCGGTTCTCTATATCTC CTTCGGGAGTGGTGGTTGTCTATCGGCGAAACAGTTAACTGAATTGGCGTGGGGACTCGAGC AGAGCCAGCAACGGTTCGTATGGGTGGTTCGACCACCGGTCGACGGTTCGTGTTGTAGCGAG TATGTCTCGGCTAACGGTGGTGGAACCGAAGACAACACGCCAGAGTATCTACCGGAAGGGTT CGTGAGTCGTACTAGTGATAGAGGTTTCGTGGTCCCCTCATGGGCCCCACAAGCTGAAATCC TGTCCCATCGGGCCGTTGGTGGGTTTTTGACCCATTGCGGTTGGAGCTCGACGTTGGAAAGC GTCGTTGGCGGCGTTCCGATGATCGCATGGCCACTTTTTGCCGAGCAGAATATGAATGCGGC GTTGCTCAGCGACGAΆCTGGGAATCGCAGTCAGATTGGATGATCCAAΆGGAGGATATTTCTA GGTGGAAGATTGAGGCGTTGGTGAGGAAGGTTATGACTGAGAAGGAAGGTGAAGCGATGAGA AGGAAAGTGAAGAAGTTGAGAGACTCGGCGGAGATGTCACTGAGCATTGACGGTGGTGGTTT GGCGCACGAGTCGCTTTGCAGAGTCACCAAGGAGTGTCAACGGTTTTTGGAACGTGTCGTGG ACTTGTCACGTGGTGCTTAG
>UGT72E3
ATGCATATCACAAAACCACACGCCGCCATGTTTTCCAGTCCCGGAATGGGCCATGTCCTCCC GGTGATCGAGCTAGCTAAGCGTCTCTCCGCTAACCACGGCTTCCACGTCACCGTCTTCGTCC TTGAAACTGACGCAGCCTCCGTTCAGTCCAAGCTCCTTAACTCAACCGGTGTTGACATCGTC AAGCTTCCATCGCCCGACATTTCTGGCTTGGTAGACCCCAACGCCCATGTGGTGAGCAAGAT CGGAGTCATTATGCGTGAAGCTGTTCCAACCCTCCGATCCAAGATCGTTGCCATGCATCAAA ACCCAACGGCTCTGATCATTGACTTGTTTGGCACAGATGCGTTATGTCTTGCAGCGGAGTTA AACATGTTGACTTATGTCTTTATCGCTTCCAACGCGCGTTATCTCGGAGTTTCGATATATTA TCCAACTTTGGACGAAGTTATCAAAGAAGAGCACACAGTGCAACGAAΆACCGCTCACTATAC CGGGGTGTGAACCGGTTAGATTTGAAGATATTATGGATGCATATCTGGTTCCGGACGAACCG GTGTACCACGATTTGGTTCGTCACTGTCTGGCCTACCCAAAAGCGGATGGAATCTTGGTGAA TACATGGGAAGAGATGGAGCCCAAATCATTAAAGTCCCTTCAAGACCCGAAACTTTTGGGCC GGGTCGCTCGTGTACCGGTTTATCCGGTTGGTCCGTTATGCAGACCGATACAATCATCCACG ACCGATCACCCGGTTTTTGATTGGTTAAACAAACAACCAAACGAGTCGGTTCTCTACATTTC CTTCGGGAGTGGTGGTTCTCTAACGGCTCAACAGTTAACCGAATTGGCGTGGGGGCTCGAGG AGAGCCAGCAACGGTTTATATGGGTGGTTCGACCGCCCGTTGACGGCTCGTCTTGCAGTGAT TATTTCTCGGCTAAAGGCGGTGTAACCAAAGACAACACGCCAGAGTATCTACCAGAAGGGTT CGTGACTCGTACTTGCGATAGAGGTTTCATGATCCCATCATGGGCACCGCAAGCTGAAATCC TAGCCCATCAGGCCGTTGGTGGGTTTTTAACACATTGTGGTTGGAGCTCGACGTTGGAAAGC GTCCTTTGCGGCGTTCCAATGATAGCGTGGCCGCTTTTCGCCGAGCAGAATATGAACGCGGC GTTGCTTAGCGATGAACTGGGAATCTCTGTTAGAGTGGATGATCCAAAGGAGGCGATTTCTA GGTCGAAGATTGAGGCGATGGTGAGGAAGGTTATGGCTGAGGACGAAGGTGAAGAGATGAGA AGGAAAGTGAAGAAGTTGAGAGACACGGCGGAGATGTCACTTAGTATTCACGGTGGTGGTTC GGCGCATGAGTCGCTTTGCAGAGTCACGAAGGAGTGTCAACGGTTTTTGGAATGTGTCGGGG ACTTGGGACGTGGTGCTTAG
>UGT73B1
ATGGGAACTCCTGTCGAAGTCTCTAAGCTCCATTTCTTGCTCTTCCCTTTCATGGCTCATGG
CCATATGATACCAACTCTAGACATGGCTAAGCTCTTTGCCACCAAAGGAGCTAAATCCACTA
TCCTCACTACACCTCTCAATGCCAAGCTCTTCTTCGAGAAACCCATCAAATCATTCAACCAA
GACAACCCGGGACTCGAAGACATCACCATCCAGATCCTTAATTTCCCTTGCACAGAGCTTGG
TTTGCCTGATGGCTGTGAGAATACTGATTTCATCTTCTCCACACCTGACCTAAACGTAGGTG
ACTTGAGTCAAAAGTTTTTACTCGCAATGAAATATTTCGAAGAGCCACTAGAGGAGCTCCTC
GTGACAATGAGACCAGACTGTCTTGTCGGTAACATGTTCTTCCCTTGGTCCACTAAAGTTGC
TGAGAAGTTCGGAGTACCGAGACTTGTGTTCCACGGCACAGGCTACTTCTCTTTATGTGCTT
CTCATTGCATAAGGCTCCCTAAGAATGTGGCAACAAGTTCTGAGCCCTTTGTGATTCCTGAT
CTCCCGGGAGACATTTTGATTACAGAGGAACAGGTCATGGAGACAGAAGAAGAGTCTGTAAT
GGGGAGGTTTATGAAGGCAATAAGAGACTCAGAGAGAGATAGCTTTGGCGTGTTGGTGAACA
GCTTCTACGAGCTTGAACAGGCTTACTCAGATTATTTCAAGAGCTTTGTGGCGAAAAGAGCG TGGCATATCGGTCCGCTTTCCTTAGGAAATAGAAAGTTCGAGGAGAAAGCAGAAAGAGGCAA AAAGGCAAGCATTGATGAGCATGAATGTTTGAAATGGCTCGACTCCAAGAAATGTGATTCAG TGATTTACATGGCCTTTGGAACCATGTCTAGCTTTAAAAACGAGCAGCTGATAGAGATTGCA GCTGGTTTAGATATGTCAGGACATGATTTTGTCTGGGTGGTTAACAGAAAAGGCAGCCAAGT TGAGAAGGAΆGATTGGTTACCAGAGGGGTTTGAAGAGAAGACCAAGGGAAAAGGATTGATAA TCCGAGGGTGGGCGCCACAAGTGCTGATACTTGAGCACAAAGCAATTGGCGGATTTTTGACG CATTGTGGATGGAACTCGTTATTAGAAGGGGTGGCAGCGGGCCTGCCAATGGTGACATGGCC CGTGGGAGCCGAGCAGTTCTACAACGAGAAATTGGTGACACAAGTGTTGAAAACAGGAGTGA GTGTGGGAGTGAAGAΆGATGATGCAAGTAGTTGGAGACTTCATTAGCAGAGAGAAAGTGGAG GGAGCGGTGAGGGAAGTGATGGTTGGAGAAGAGAGGAGGAAΆCGGGCCAAGGAGTTAGCAGA AATGGCGAAAAATGCGGTGAAAGAAGGAGGATCTTCAGATCTAGAGGTAGATAGGTTGATGG AAGAGCTTACGTTAGTTAΆACTGCAAAAAGAGAAGGTATAΆ
>UGT73B2
ATGGGTAGTGATCATCATCATCGAAAGCTCCACGTTATGTTCTTCCCTTTCATGGCTTATGG TCACATGATACCAACTCTAGACATGGCTAAGCTTTTCTCTAGCAGAGGAGCCAAATCCACAA TCCTCACCACATCTCTCAACTCCAAGATCCTCCAAAAACCCATCGACACATTCAAGAATCTG AATCCGGGTCTCGAAATCGACATCCAGATCTTCAATTTCCCTTGCGTGGAGCTGGGGTTACC AGAAGGATGTGAAAACGTTGATTTCTTCACTT.CAAΆCAACAATGATGATAAAAACGAGATGA TCGTGAAATTCTTTTTCTCGACAAGGTTTTTCAAAGACCAGCTTGAGAAΆCTCCTCGGGACA ACGAGACCAGACTGTCTTATCGCCGACATGTTCTTCCCCTGGGCTACTGAAGCTGCTGGGAA GTTCAATGTGCCAAGACTTGTGTTCCACGGCACTGGCTACTTCTCTTTATGCGCTGGTTATT GCATCGGAGTGCATAΆACCACAGAAGAGAGTGGCTTCAAGCTCTGAGCCATTTGTGATTCCC GAGCTCCCTGGGAACATTGTGATAACTGAΆGAACAGATCATAGATGGCGATGGAGAATCCGA CATGGGAAAGTTTATGACTGAAGTTAGGGAATCGGAAGTGAAGAGCTCAGGAGTTGTTTTGA ATAGTTTCTACGAGCTAGAΆCATGATTACGCCGATTTTTACAAAAGTTGTGTACAAAAGAGA GCGTGGCATATCGGTCCGCTATCGGTTTACAACAGGGGATTTGAGGAGAAGGCTGAGAGAGG AAAGAAAGCGAACATTGATGAGGCTGAATGCCTCAAATGGCTTGACTCCAAGAAACCAAATT CAGTCATTTATGTTTCCTTTGGGAGCGTGGCTTTCTTCAAGAATGAACAGTTATTCGAGATC GCTGCAGGGTTAGAAGCTTCCGGTACAAGTTTCATTTGGGTTGTTAGGAAAACCAAAGTGAT AGAGAAGAATGGTTACCAGAAGGGTTCGAAGAGAGGGTGAAAGGGAAAGGTATGATAATAAG AGGATGGGCACCACAGGTGCTGATACTTGACCACCAAGCAACCGGTGGGTTTGTGACCCATT GCGGCTGGAACTCGCTTCTTGAAGGAGTGGCTGCAGGGCTACCAATGGTGACATGGCCTGTA GGAGCGGAGCAATTCTACAATGAGAAATTGGTTACGCAAGTGCTCAGAACAGGAGTGAGCGT GGGAGCGAGCAAGCATATGAAAGTTATGATGGGAGATTTCATTAGCAGAGAGAAAGTGGATA AAGCGGTGAGGGAGGTTTTGGCTGGGGAAGCAGCAGAGGAGAGGCGGAGACGGGCAAAGAAG CTAGCGGCGATGGCTAAΆGCTGCCGTGGAΆGAΆGGAGGGTCTTCCTTCAACGATCTAAACAG CTTCATGGAAGAGTTTAGTTCATAA
>UGT73B3
ATGAGTAGTGATCCTCATCGTAAGCTCCATGTTGTGTTCTTCCCTTTCATGGCTTATGGTCA CATGATACCAACTCTAGACATGGCTAAGCTTTTCTCTAGCAGAGGAGCCAAATCTACAATCC TCACCACACCTCTCAACTCCAAGATCTTCCAAAAACCCATCGAAAGATTCAAGAACCTGAAT CCGAGTTTCGAAATCGACATCCAGATCTTCGATTTCCCTTGCGTGGATCTCGGGTTACCAGA AGGATGCGAAAACGTCGATTTCTTCACCTCAAACAACAATGATGATAGACAGTATCTGACCT TGAAGTTCTTTAAGTCGACAAGGTTTTTCAAAGATCAGCTTGAGAAGCTCCTCGAGACAACG AGACCAGACTGTCTTATCGCCGACATGTTCTTCCCCTGGGCTACGGAAGCTGCTGAGAAGTT CAΆTGTGCCAAGACTTGTGTTCCACGGTACTGGCTACTTTTCTTTATGCTCTGAATATTGCA TCAGAGTGCATAACCCACAAAACATAGTAGCTTCAAGGTACGAGCCATTTGTGATTCCTGAT CTCCCGGGGAACATAGTGATAACTCAAGAACAGATAGCAGACCGTGACGAAGAAAGCGAGAT GGGGAAGTTTATGATTGAGGTCAAΆGAATCTGATGTGAAGAGCTCAGGTGTTATTGTAAACA GCTTCTACGAGCTTGAACCTGATTACGCCGACTTTTACAAGAGTGTTGTACTGAAGAGAGCG TGGCATATCGGTCCGCTTTCGGTTTACAACAGAGGATTTGAGGAGAAGGCTGAGAGAGGAAA GAAAGCAAGCATTAATGAGGTTGAATGCCTCAAATGGCTTGACTCCAAGAAACCAGATTCAG TCATTTACATTTCTTTTGGGAGCGTGGCTTGCTTCAAGAACGAGCAGCTATTCGAGATCGCT GCAGGATTAGAAACTTCTGGAGCAAATTTCATCTGGGTTGTTAGGAAAAACATAGGTATTGA AAAAGAAGAATGGTTACCAGAAGGGTTCGAAGAGAGGGTGAAAGGAAAAGGGATGATTATAA GAGGATGGGCACCACAGGTGCTCATACTTGATCATCAAGCAACTTGTGGGTTTGTGACCCAT TGCGGCTGGAACTCGCTTCTGGAAGGAGTGGCTGCAGGGCTACCAATGGTGACATGGCCTGT AGCAGCGGAGCAATTCTACAATGAGAAATTGGTTACGCAAGTGCTCAGAACAGGAGTGAGCG TGGGAGCGAAAAAGAATGTAAGAACTACGGGAGATTTCATTAGCAGAGAGAAAGTGGTTAAA GCGGTGAGGGAGGTGTTGGTTGGGGAAGAGGCGGATGAGAGGCGGGAGAGGGCAAAGAAGTT GGCAGAGATGGCTAAAGCTGCCGTGGAAGGAGGGTCTTCTTTCAACGATCTAAACAGCTTCA TAGAAGAGTTTACCTCGTAA
>UGT73B4
ATGAACAGAGAGCAAATTCATATTTTGTTCTTCCCCTTCATGGCTCATGGCCACATGATTCC ACTCTTAGACATGGCCAAGCTTTTCGCTAGAAGAGGAGCCAAATCAACTCTCCTCACAACCC CAATAAATGCTAAGATCTTGGAGAAACCCATTGAAGCATTCAAΆGTTCAAAATCCTGATCTC GAAATCGGAATCAAGATCCTCAATTTCCCTTGTGTAGAGCTTGGATTGCCAGAAGGATGCGA GAACCGTGACTTCATTAACTCATACCAAAAATCTGACTCATTTGACTTGTTCTTGAAGTTTC TTTTCTCTACCAAGTATATGAAACAGCAGTTGGAGAGTTTCATTGAAΆCAACCAAACCGAGT GCTCTTGTAGCCGATATGTTCTTCCCTTGGGCAACAGAATCCGCGGAGAAGATCGGTGTTCC AAGACTTGTGTTCCACGGCACATCATCCTTTGCCTTGTGTTGTTCGTATAACATGAGGATTC ATAAGCCACACAAGAAAGTCGCTTCGAGTTCTACTCCATTTGTAATCCCTGGTCTCCCTGGA GACATAGTTATTACAGAAGACCAAGCCAATGTCACCAACGAAGAAACTCCATTCGGAAAGTT TTGGAAAGAAGTCAGGGAATCAGAGACCAGTAGCTTTGGTGTTTTGGTGAATAGCTTCTACG AGCTGGAATCATCTTATGCTGATTTTTACCGTAGTTTTGTGGCGAAAAAAGCGTGGCATATA GGTCCACTTTCACTATCCAACAGAGGGATTGCAGAGAAAGCCGGAAGAGGGAAAAAGGCAAA CATTGATGAGCAAGAATGCCTCAAATGGCTTGACTCTAAGACACCTGGCTCAGTAGTTTACT TGTCCTTTGGTAGCGGAACCGGCTTACCCAACGAACAGCTGTTAGAGATTGCTTTCGGCCTT GAAGGCTCTGGACAAAATTTCATTTGGGTGGTTAGCAAAAATGAAAACCAAGGTGAAAATGA AGATTGGTTGCCTAAAGGGTTTGAAGAGAGGAATAAAGGAAAAGGGCTGATAATACGCGGAT GGGCCCCGCAAGTGCTGATACTTGACCACAAAGCAATCGGAGGATTTGTGACGCATTGCGGA TGGAACTCGACTTTGGAGGGCATTGCCGCAGGGCTGCCTATGGTGACTTGGCCGATGGGGGC AGAACAGTTCTACAACGAGAAGTTATTGACAAAAGTGTTGAGAATAGGAGTGAACGTTGGAG CTACCGAGTTGGTGAAAAAAGGAAAGTTGATTAGTAGAGCACAAGTGGAGAAGGCAGTAAGG GAAGTGATTGGTGGTGAGAAGGCAGAGGAAAGGCGGCTAAGGGCTAAGGAGCTGGGCGAGAT GGCTAAAGCCGCTGTGGAAGAAGGAGGGTCTTCTTATAATGATGTGAACAAGTTTATGGAAG AGCTGAATGGTAGAAAGTAG
>UGT73B5
ATGAACAGAGAAGTCTCTGAGAGAATTCATATTTTGTTCTTCCCCTTCATGGCTCAAGGCCA CATGATTCCAATTTTGGACATGGCCAAGCTTTTCTCGAGGAGAGGAGCCAAGTCAACCCTTC TCACAACCCCAATCAACGCTAAGATCTTCGAGAAACCTATTGAAGCATTCAAAAATCAAAAC CCTGATCTCGAAATCGGAATCAAGATCTTCAATTTCCCTTGTGTAGAGCTTGGATTGCCTGA AGGATGCGAGAACGCTGACTTTATCAACTCATACCAAAAATCTGACTCAGGTGACTTGTTCT TGAAGTTTCTTTTCTCTACCAAGTATATGAAACAACAGTTGGAGAGTTTCATTGAAACAΆCC AAACCAAGTGCTCTTGTTGCCGATATGTTCTTCCCTTGGGCGACAGAATCTGCTGAGAAGCT CGGTGTACCAAGACTTGTGTTCCACGGTACATCTTTCTTTTCTTTGTGTTGTTCGTATAACA TGAGGATTCATAAGCCACACAAGAAAGTCGCTACGAGTTCTACTCCTTTTGTAATCCCTGGT CTCCCAGGAGACATAGTTATTACAGAAGACCAAGCCAATGTTGCCAAAGAAGAAACGCCAAT GGGAAAGTTTATGAAAGAGGTTAGGGAATCAGAGACCAATAGCTTTGGTGTATTGGTTAATA GCTTCTACGAGCTGGAATCAGCTTATGCTGATTTTTATCGTAGTTTTGTGGCGAAAAGAGCT TGGCATATCGGTCCGCTTTCGCTATCTAACAGAGAGTTAGGAGAGAAAGCCAGAAGAGGGAA AAAGGCTAACATTGATGAGCAAGAATGCCTAAAATGGCTGGACTCTAAGACACCTGGTTCAG TAGTTTACTTGTCCTTTGGGAGCGGAACTAATTTCACCAACGACCAGCTGTTAGAGATCGCT TTTGGTCTTGAAGGTTCTGGACAAAGTTTCATCTGGGTGGTTAGGAAAAATGAAAACCAAGG TGACAATGAAGAGTGGTTGCCTGAAGGGTTTAAAGAGAGGACAACAGGGAAAGGGCTAATAA TACCTGGATGGGCGCCGCAAGTGCTGATACTTGACCATAAAGCAATTGGAGGATTTGTGACT CATTGCGGATGGAACTCGGCTATAGAGGGCATTGCCGCGGGGCTGCCTATGGTAACATGGCC AATGGGGGCAGAACAGTTCTACAATGAGAAGCTATTGACAAAAGTGTTGAGAATAGGAGTGA ACGTTGGAGCTACCGAGTTGGTGAAAAAAGGAAAGTTGATTAGTAGAGCACAAGTGGAGAAG GCAGTAAGGGAAGTGATTGGTGGTGAGAAGGCAGAGGAAAGGCGGCTATGGGCTAAGAAGCT GGGCGAGATGGCTAAAGCCGCTGTGGAAGAAGGAGGGTCCTCTTATAATGATGTGAACAAGT TTATGGAAGAGCTGAATGGTAGAAAGTAG
>UGT73C1
ATGGCATCGGAATTTCGTCCTCCTCTTCATTTTGTTCTCTTCCCTTTCATGGCTCAAGGCCA CATGATCCCAΆTGGTAGATATTGCAΆGGCTCCTGGCTCAGCGCGGGGTGACTATAACCATTG TCACTACACCTCAAAACGCAGGCCGGTTCAAGAACGTTCTTAGCCGGGCTATCCAATCCGGC TTGCCCATCAATCTCGTGCAAGTAAAGTTTCCATCTCAAGAATCGGGTTCACCGGAAGGACA GGAGAATTTGGACTTGCTCGATTCATTGGGGGCTTCATTAACCTTCTTCAAAGCATTTAGCC TGCTCGAGGAACCAGTCGAGAAGCTCTTGAAAGAGATTCAACCTAGGCCAAACTGCATAATC GCTGACATGTGTTTGCCTTATACAAΆCAGAΆTTGCCAAGAATCTTGGTATACCAAAAATCAT CTTTCATGGCATGTGTTGCTTCAATCTTCTTTGTACGCACATAATGCACCAAAACCACGAGT TCTTGGAAΆCTATAGAGTCTGACAAGGAATACTTCCCCATTCCTAATTTCCCTGACAGAGTT GAGTTCACAΆAATCTCAGCTTCCAΆTGGTATTAGTTGCTGGAGATTGGAAAGACTTCCTTGA CGGAATGACAGAAGGGGATAACACTTCTTATGGTGTGATTGTTAACACGTTTGAAGAGCTCG AGCCAGCTTATGTTAGAGACTACAAGAAGGTTAAAGCGGGTAAGATATGGAGCATCGGACCG GTTTCCTTGTGCAACAAGTTAGGAGAAGACCAAGCTGAGAGGGGAAACAAGGCGGACATTGA TCAAGACGAGTGTATTAAATGGCTTGATTCTAAAGAAGAAGGGTCGGTGCTATATGTTTGCC TTGGAAGTATATGCAATCTTCCTCTGTCTCAGCTCAAAGAGCTCGGCTTAGGCCTCGAGGAA TCCCAAAGACCTTTCATTTGGGTCATAAGAGGTTGGGAGAAGTATAACGAGTTACTTGAATG GATCTCAGAGAGCGGTTATAAGGAAAGAATCAAAGAAAGAGGCCTTCTCATAACAGGATGGT CGCCTCAAATGCTTATCCTTACACATCCTGCCGTTGGAGGATTCTTGACACATTGTGGATGG AACTCTACTCTTGAAGGAATCACTTCAGGCGTTCCATTACTCACGTGGCCACTGTTTGGAGA CCAATTCTGCAATGAGAAATTGGCGGTGCAGATACTAAAAGCCGGTGTGAGAGCTGGGGTTG AAGAGTCCATGAGATGGGGAGAAGAGGAGAAAATAGGAGTACTGGTGGATAAAGAAGGAGTA AAGAAGGCAGTGGAGGAATTGATGGGTGATAGTAATGATGCTAAGGAGAGAAGAAAAAGAGT GAAAGAGCTTGGAGAATTAGCTCACAAGGCTGTGGAAGAAGGAGGCTCTTCTCATTCCAACA TCACATTCTTGCTACAAGACATAATGCAATTAGAACAACCCAAGAAATGA
>UGT73C2
ATGGCTTTCGAGAAGACCCGCCAATTTCTTCCTCCGCTTCACTTTGTTCTCTTCCCTTTCAT GGCTCAAGGCCACATGATCCCCATGGTGGATATTGCAAGGATCTTGGCTCAGCGCGGGGTGA CTATTACCATTGTCACGACGCCTCACAACGCAGCCAGGTTCAAAGATGTCCTAAACCGGGCC ATCCAGTCAGGCTTGCACATTAGGGTTGAGCATGTGAAGTTTCCTTTTCAAGAAGCTGGTTT GCAAGAΆGGACAAGAGAATGTTGATTTTCTTGACTCAATGGAGTTAATGGTACATTTCTTTA AAGCGGTTAACATGCTTGAAAATCCGGTCATGAAGCTCATGGAAGAGATGAAΆCCTAAACCA AGCTGCCTAATTTCTGATTTTTGTTTGCCTTATACAAGCAAAATCGCTAAGAGGTTCAATAT CCCAAAGATCGTTTTCCATGGCGTGTCTTGCTTTTGTCTTTTGAGTATGCATATTCTACACC GAAACCACAATATCTTACATGCTTTAAAGTCGGACAAAGAGTATTTCTTGGTTCCTAGTTTT CCAGATAGAGTTGAATTTACAAAGCTTCAAGTTACTGTGAAAACAAACTTTAGTGGAGATTG GAAAGAGATCATGGACGAACAGGTGGATGCTGATGACACGTCCTATGGTGTAATTGTCAACA CATTTCAGGATTTGGAGTCTGCCTATGTGAAAAACTACACGGAGGCTAGGGCTGGTAAAGTA TGGAGCATCGGTCCGGTTTCCTTGTGCAACAAGGTAGGAGAAGACAAAGCTGAGAGGGGAAA CAAGGCAGCCATTGATCAAGACGAGTGTATTAAATGGCTTGATTCTAAAGATGTAGAGTCGG TGCTGTATGTTTGCCTTGGAAGTATATGCAATCTTCCTCTGGCTCAGCTTAGAGAGCTCGGG CTAGGCCTCGAGGCAACTAAAΆGACCATTCATTTGGGTCATAAGAGGTGGGGGAAΆGTATCA TGAACTAGCTGAGTGGATCTTAGAGAGCGGTTTTGAAGAAAGAACCAAAGAGAGAAGCCTTC TCATAAAAGGATGGTCGCCTCAAATGCTTATCCTTTCACACCCTGCCGTTGGAGGATTCCTG ACACATTGTGGATGGAACTCAACTTTAGAAGGAATCACCTCAGGGGTTCCATTGATCACTTG GCCATTATTTGGAGACCAATTCTGCAACCAGAAACTGATCGTGCAGGTGCTAAAAGCAGGTG TAAGTGTTGGGGTTGAAGAGGTCATGAAATGGGGAGAAGAGGAGAGTATTGGAGTGTTAGTG GATAAAGAAGGAGTGAAGAAGGCAGTGGACGAAATAATGGGCGAGAGTGATGAAGCAAAΆGA GAGAAGAAAAAGAGTCAGAGAGCTTGGAGAATTAGCTCACAAGGCTGTGGAAGAAGGAGGCT CTTCTCATTCTAATATCATATTTTTGCTACAAGATATAATGCAACAAGTAGAATCCAAGAGT TGA
>UGT73C3 ATGGCTACGGAAAAAACCCACCAATTTCATCCTTCTCTTCACTTTGTCCTCTTCCCTTTCAT
GGCTCAAGGCCACATGATTCCCATGATTGATATTGCAAGACTCTTGGCTCAGCGTGGTGTGA CCATAACAATTGTCACGACACCTCACAACGCAGCAAGGTTTAAGAATGTCCTAΆACCGAGCG ATCGAGTCTGGCTTGGCCATCAACATACTGCATGTGAAGTTTCCATATCAAGAGTTTGGTTT GCCAGAAGGAAAAGAGAATATAGATTCGTTAGACTCAACGGAGTTGATGGTACCTTTCTTCA AAGCGGTGAACTTGCTTGAAGATCCGGTCATGAAGCTCATGGAAGAGATGAAACCTAGACCT AGCTGTCTAATTTCTGATTGGTGTTTGCCTTATACAAGCATAATCGCCAAGAACTTCAATAT ACCAAAGATAGTTTTCCACGGCATGGGTTGCTTTAATCTTTTGTGTATGCATGTTCTACGCA GAAACTTAGAGATCCTAGAGAATGTAAAGTCGGATGAAGAGTATTTCTTGGTTCCTAGTTTT CCTGATAGAGTTGAATTTACAAAGCTTCAACTTCCTGTGAAAGCAAATGCAAGTGGAGATTG GAAAGAGATAATGGATGAAATGGTAAAAGCAGAATACACATCCTATGGTGTGATCGTCAACA CATTTCAGGAGTTGGAGCCACCTTATGTCAAAGACTACAAAGAGGCAATGGATGGAAAAGTA TGGTCCATTGGACCCGTTTCCTTGTGTAACAAGGCAGGTGCAGACAAAGCTGAGAGGGGAAG CAAGGCCGCCATTGATCAAGATGAGTGTCTTCAATGGCTTGATTCTAAAGAAGAAGGTTCGG TGCTCTATGTTTGCCTTGGAAGTATATGTAATCTTCCTTTGTCTCAGCTCAAGGAGCTGGGG CTAGGCCTTGAGGAATCTCGAAGATCTTTTATTTGGGTCATAAGAGGTTCGGAAAAGTATAA AGAACTATTTGAGTGGATGTTGGAGAGCGGTTTTGAAGAAAGAATCAAAGAGAGAGGACTTC TCATTAAAGGGTGGGCACCTCAAGTCCTTATCCTTTCACATCCTTCCGTTGGAGGATTCCTG ACACACTGTGGATGGAACTCGACTCTCGAAGGAATCACCTCAGGCATTCCACTGATCACTTG GCCGCTGTTTGGAGACCAATTCTGCAACCAAAAACTGGTCGTTCAAGTACTAAAAGCCGGTG TAAGTGCCGGGGT.TGAAGAAGTCATGAAATGGGGAGAAGAAGATAAAATAGGAGTGTTAGTG GATAAAGAAGGAGTGAAAAAGGCTGTGGAAGAATTGATGGGTGATAGTGATGATGCAAAAGA GAGGAGAAGAAGAGTCAAAGAGCTTGGAGAATTAGCTCACAAAGCTGTGGAAAAAGGAGGCT CTTCTCATTCTAACATCACACTCTTGCTACAAGACATAATGCAACTAGCACAATTCAAGAAT
TGA
>UGT73C4
ATGGCTTCCGAAAAATCCCACAAAGTTCATCCTCCTCTTCACTTTATTCTTTTCCCTTTCAT
GGCTCAGGGCCACATGATTCCCATGATTGATATAGCAAGGCTCTTGGCTCAGCGCGGTGCGA
CAGTAACTATTGTCACGACACGTTATAATGCAGGGAGGTTCGAGAATGTCTTAAGTCGTGCC
ATGGAGTCTGGTTTACCCATCAACATAGTGCATGTGAATTTTCCATATCAAGAATTTGGTTT
GCCAGAAGGAAAAGAGAATATAGATTCGTATGACTCAATGGAGCTGATGGTACCTTTCTTTC
AAGCAGTTAACATGCTCGAAGATCCGGTCATGAAGCTCATGGAAGAGATGAAACCTAGACCT
AGCTGTATTATTTCTGATTTGCTCTTGCCTTATACAAGCAAAATCGCAAGGAAATTCAGTAT
ACCAAAGATAGTTTTCCACGGCACGGGTTGCTTTAATCTTTTGTGTATGCATGTTCTACGCA
GAAACCTCGAGATCTTGAAGAACTTAAAGTCGGATAAAGATTATTTCCTGGTTCCTAGTTTT
CCTGATAGAGTTGAATTTACAAAGCCTCAAGTTCCAGTGGAAACAACTGCAAGTGGAGATTG
GAAAGCGTTCTTGGACGAAATGGTAGAAGCAGAATACACATCCTATGGTGTGATCGTCAACA
CATTTCAGGAGTTGGAGCCTGCTTATGTCAAAGACTACACGAAGGCTAGGGCTGGAAAAGTA
TGGTCCATTGGACCTGTTTCCTTGTGCAACAAGGCAGGTGCTGATAAAGCTGAGAGGGGAAA
CCAGGCCGCCATTGATCAAGATGAGTGTCTTCAATGGCTTGATTCTAAAGAAGATGGTTCGG
TGTTATATGTTTGCCTTGGAAGTATCTGTAATCTACCTTTGTCTCAGCTCAAGGAGCTGGGG
CTAGGCCTTGAAAAATCCCAAAGATCTTTTATTTGGGTCATAAGAGGTTGGGAAAAGTATAA
TGAACTATATGAGTGGATGATGGAGAGCGGTTTTGAAGAAAGAATCAAAGAGAGAGGACTTC
TTATTAAAGGGTGGTCACCTCAAGTCCTTATCCTTTCACATCCTTCCGTTGGAGGATTCCTG
ACACACTGTGGATGGAACTCGACTCTCGAAGGAATCACCTCAGGCATTCCACTGATCACTTG
GCCGCTGTTTGGAGACCAATTCTGCAACCAAAAACTGGTCGTTCAAGTACTAAAAGCCGGTG
TAAGTGCCGGGGTTGAAGAAGTCATGAAATGGGGAGAAGAGGAGAAAATAGGAGTGTTAGTG
GATAAAGAAGGAGTAAAGAAGGCAGTGGAAGAGTTAATGGGTGCGAGTGATGATGCAAAAGA
GAGGAGAAGAAGAGTCAAAGAGCTTGGAGAATCAGCTCACAAGGCTGTGGAAGAAGGAGGCT
CTTCTCATTCTAACATCACATACTTGCTACAAGACATAATGCAACAAGTGAAATCCAAGAAC
TGA >UGT73C5
ATGGTTTCCGAAACAACCAAATCTTCTCCACTTCACTTTGTTCTCTTCCCTTTCATGGCTCA
AGGCCACATGATTCCCATGGTTGATATTGCAAGGCTCTTGGCTCAGCGTGGTGTGATCATAA
CAATTGTCACGACGCCTCACAATGCAGCGAGGTTCAAGAATGTCCTAAACCGTGCCATTGAG
TCTGGCTTGCCCATCAACTTAGTGCAAGTCAAGTTTCCATATCTAGAAGCTGGTTTGCAAGA
AGGACAAGAGAATATCGATTCTCTTGACACAATGGAGCGGATGATACCTTTCTTTAAAGCGG
TTAACTTTCTCGAAGAACCAGTCCAGAAGCTCATTGAAGAGATGAACCCTCGACCAAGCTGT
CTAATTTCTGATTTTTGTTTGCCTTATACAAGCAAAATCGCCAAGAAGTTCAATATCCCAAA
GATCCTCTTCCATGGCATGGGTTGCTTTTGTCTTCTGTGTATGCATGTTTTACGCAAGAACC
GTGAGATCTTGGACAATTTAAAGTCAGATAAGGAGCTTTTCACTGTTCCTGATTTTCCTGAT
AGAGTTGAATTCACAAGAACGCAAGTTCCGGTAGAAACATATGTTCCAGCTGGAGACTGGAA
AGATATCTTTGATGGTATGGTAGAAGCGAATGAGACATCTTATGGTGTGATCGTCAACTCAT
TTCAAGAGCTCGAGCCTGCTTATGCCAAAGACTACAAGGAGGTAAGGTCCGGTAAAGCATGG
ACCATTGGACCCGTTTCCTTGTGCAACAAGGTAGGAGCCGACAAAGCAGAGAGGGGAAACAA
ATCAGACATTGATCAAGATGAGTGCCTTAAATGGCTCGATTCTAAGAAACATGGCTCGGTGC
TTTACGTTTGTCTTGGAAGTATCTGTAATCTTCCTTTGTCTCAACTCAAGGAGCTGGGACTA
GGCCTAGAGGAATCCCAAAGACCTTTCATTTGGGTCATAAGAGGTTGGGAGAAGTACAAAGA
GTTAGTTGAGTGGTTCTCGGAAAGCGGCTTTGAAGATAGAATCCAAGATAGAGGACTTCTCA
TCAAAGGATGGTCCCCTCAAATGCTTATCCTTTCACATCCATCAGTTGGAGGGTTCCTAACA
CACTGTGGTTGGAACTCGACTCTTGAGGGGATAACTGCTGGTCTACCGCTACTTACATGGCC
GCTATTCGCAGACCAATTCTGGAATGAGAAATTGGTCGTTGAGGTACTAAAAGCCGGTGTAA'
GATCCGGGGTTGAACAGCCTATGAAATGGGGAGAAGAGGAGAAAATAGGAGTGTTGGTGGAT
AAAGAAGGAGTGAAGAAGGCAGTGGAAGAATTAATGGGTGAGAGTGATGATGCAAAAGAGAG
AAGAAGAAGAGCCAAAGAGCTTGGAGATTCAGCTCACAAGGCTGTGGAAGAAGGAGGCTCTT
CTCATTCTAACATCTCTTTCTTGCTACAAGACATAATGGAACTGGCAGAACCCAATAATTGA
>UGT73C6
ATGGCTTTCGAAAAAAACAACGAACCTTTTCCTCTTCACTTTGTTCTCTTCCCTTTCATGGC
TCAAGGCCACATGATTCCCATGGTTGATATTGCAAGGCTCTTGGCTCAGCGAGGTGTGCTTA
TAACAATTGTCACGACGCCTCACAATGCAGCAAGGTTCAAGAATGTCCTAAACCGTGCCATT
GAGTCTGGTTTGCCCATCAACCTAGTGCAAGTCAAGTTTCCATATCAAGAAGCTGGTCTGCA
AGAAGGACAAGAAAATATGGATTTGCTTACCACGATGGAGCAGATAACATCTTTCTTTAAAG
CGGTTAACTTACTCAAAGAACCAGTCCAGAACCTTATTGAAGAGATGAGCCCGCGACCAAGC
TGTCTAATCTCTGATATGTGTTTGTCGTATACAAGCGAAATCGCCAAGAAGTTCAAAATACC
AAAGATCCTCTTCCATGGCATGGGTTGCTTTTGTCTTCTGTGTGTTAACGTTCTGCGCAAGA
ACCGTGAGATCTTGGACAATTTAAAGTCTGATAAGGAGTACTTCATTGTTCCTTATTTTCCT
GATAGAGTTGAATTCACAAGACCTCAAGTTCCGGTGGAAACATATGTTCCTGCAGGCTGGAA
AGAGATCTTGGAGGATATGGTAGAAGCGGATAAGACATCTTATGGTGTTATAGTCAACTCAT
TTCAAGAGCTCGAACCTGCGTATGCCAAAGACTTCAAGGAGGCAAGGTCTGGTAAAGCATGG
ACCATTGGACCTGTTTCCTTGTGCAACAAGGTAGGAGTAGACAAAGCAGAGAGGGGAAACAA
ATCAGATATTGATCAAGATGAGTGCCTTGAATGGCTCGATTCTAAGGAACCGGGATCTGTGC
TCTACGTTTGCCTTGGAAGTATTTGTAATCTTCCTCTGTCTCAGCTCCTTGAGCTGGGACTA
GGCCTAGAGGAATCCCAAAGACCTTTCATCTGGGTCATAAGAGGTTGGGAGAAATACAAAGA
GTTAGTTGAGTGGTTCTCGGAAAGCGGCTTTGAAGATAGAATCCAAGATAGAGGACTTCTCA
TCAAAGGATGGTCCCCTCAAATGCTTATCCTTTCACATCCTTCTGTTGGAGGGTTCTTAACG
CACTGCGGATGGAACTCGACTCTTGAGGGGATAACTGCTGGTCTACCAATGCTTACATGGCC
ACTATTTGCAGACCAATTCTGCAACGAGAAACTGGTCGTACAAATACTAAAAGTCGGTGTAA
GTGCCGAGGTTAAAGAGGTCATGAAATGGGGAGAAGAAGAGAAGATAGGAGTGTTGGTGGAT
AAAGAAGGAGTGAAGAAGGCAGTGGAAGAACTAATGGGTGAGAGTGATGATGCAAAAGAGAG
AAGAAGAAGAGCCAAAGAGCTTGGAGAATCAGCTCACAAGGCTGTGGAAGAAGGAGGCTCCT
CTCATTCTAATATCACTTTCTTGCTACAAGACATAATGCAACTAGCACAGTCCAATAATTGA
>UGT73C7
ATGTGTTCTCATGATCCTCTTCACTTCGTCGTAATACCCTTTATGGCCCAAGGCCATATGAT
CCCATTGGTCGACATCTCTAGGCTCTTGTCCCAGCGCCAAGGCGTGACTGTCTGCATCATCA CAACTACTCAAAATGTAGCCAAGATCAAGACTTCACTCTCATTTTCCTCTTTGTTTGCGACT ATCAACATCGTTGAAGTTAAGTTTCTGTCTCAACAAACGGGTTTGCCAGAAGGGTGCGAGAG TTTAGATATGTTGGCTTCAATGGGCGATATGGTGAAGTTCTTTGATGCTGCCAACTCACTTG AGGAGCAAGTTGAGAAAGCTATGGAAGAGATGGTTCAGCCGCGGCCAAGCTGCATCATTGGA GACATGAGCCTTCCTTTCACTTCAAGACTTGCCAAGAAATTCAAGATCCCCAAACTTATCTT CCATGGGTTTTCTTGTTTCAGCCTCATGTCTATACAAGTGGTTCGAGAAAGCGGGATCTTGA AAATGATAGAATCAAACGACGAGTATTTTGATTTGCCCGGCTTGCCTGACAAAGTTGAGTTC ACGAAACCTCAGGTCTCTGTGTTGCAACCTGTTGAAGGAAATATGAAAGAGAGTACGGCCAA GATTATTGAAGCTGATAATGACTCTTATGGTGTTATTGTGAACACTTTTGAAGAGTTAGAGG TTGATTATGCAAGAGAATATAGGAAAGCAAGGGCTGGAAAAGTTTGGTGCGTTGGACCTGTT TCCTTGTGCAATAGGTTAGGGTTAGACAAAGCTAAAAGAGGAGATAAGGCTTCTATTGGTCA AGACCAATGTCTTCAATGGCTTGACTCTCAAGAAACTGGTTCAGTGCTCTACGTTTGCCTTG GAAGTCTATGTAATCTTCCCTTGGCTCAGCTCAAAGAGCTGGGACTAGGCCTTGAGGCATCT AATAAACCTTTCATATGGGTTATAAGAGAATGGGGAAAATATGGAGATTTAGCAAATTGGAT GCAACAAAGCGGATTTGAAGAGCGGATCAAAGATAGAGGACTGGTGATCAAAGGTTGGGCGC CGCAAGTTTTCATCCTCTCACACGCATCCATTGGAGGGTTTTTGACTCACTGTGGATGGAAC TCGACACTAGAAGGAATTACTGCAGGAGTTCCATTATTGACATGGCCTTTGTTTGCTGAACA ATTCTTGAATGAGAAGTTAGTTGTGCAGATACTAAAAGCAGGGTTAAAGATAGGAGTAGAGA AATTGATGAAATATGGAAAAGAAGAGGAGATAGGAGCGATGGTGAGCAGAGAATGTGTGAGA AAAGCTGTGGATGAGCTAATGGGTGATAGTGAAGAAGCAGAAGAGAGAAGAAGAAAAGTTAC AGAACTTAGTGACTTGGCAAATAAGGCTTTGGAAAAAGGAGGATCTTCAGATTCTAATATCA CATTGCTCATTCAAGATATTATGGAGCAATCACAAAATCAATTTTAA
>UGT73D1
ATGGAATCAAAAATAGTTTCAAAAGCCAAAAGACTTCACTTTGTTTTGATCCCTCTCATGGC TCAAGGGCATCTGATCCCCATGGTCGACATCTCCAAGATTCTTGCACGACAAGGCAACATCG TTACCATAGTTACAACCCCTCAAAATGCTTCTAGGTTTGCGAAGACAGTTGACCGAGCAAGA TTAGAGTCGGGTCTCGAAATCAATGTCGTTAAATTTCCAATTCCTTACAAAGAATTCGGTCT TCCCAAAGATTGTGAGACTCTGGACACTTTGCCCTCCAAAGACCTCCTACGAAGATTCTATG ACGCTGTGGATAAACTCCAAGAGCCCATGGAACGGTTTCTTGAGCAACAAGATATCCCTCCA AGTTGCATAATCTCCGATAAATGCCTTTTTTGGACGTCAAGAACCGCAAAGAGGTTCAAAAT CCCGAGGATCGTGTTCCATGGAATGTGTTGCTTCTCTCTTTTGAGTTCGCACAATATCCATC TTCATAGCCCGCACCTCTCGGTTTCTTCGGCCGTAGAGCCATTCCCTATACCAGGAATGCCA CATAGGATTGAGATAGCTAGAGCTCAGTTACCTGGTGCTTTTGAGAAGTTAGCAAATATGGA TGACGTTCGCGAGAAGATGCGTGAATCTGAATCAGAAGCCTTTGGGGTTATTGTTAATAGCT TCCAGGAATTGGAGCCTGGCTATGCAGAGGCCTACGCTGAGGCCATCAATAAGAAGGTATGG TTCGTTGGACCCGTTTCTTTATGCAΆCGACCGTATGGCTGACCTATTCGATAGAGGAAGTAA TGGTAACATCGCAATAAGCGAGACCGAATGCTTGCAGTTTCTTGACTCGATGAGACCAAGGT CAGTCTTATATGTTTCTCTTGGTAGCCTCTGTCGACTAATACCTAATCAATTGATAGAACTA GGTTTAGGGTTAGAAGAATCGGGAAAACCCTTTATTTGGGTGATAAAGACCGAGGAAAAACA CATGATTGAGCTAGACGAATGGCTAAAACGCGAAAATTTTGAAGAGCGAGTTAGAGGAAGAG GGATAGTAATAAAGGGTTGGAGTCCTCAGGCTATGATACTCTCACATGGTTCAACCGGCGGG TTCTTGACTCATTGCGGTTGGAATTCTACAATAGAAGCGATATGTTTTGGTGTACCAATGAT CACATGGCCGTTGTTCGCTGAACAATTTCTCAATGAGAAACTCATCGTGGAGGTTTTGAACA TCGGGGTTAGGGTTGGGGTGGAGATTCCGGTGAGATGGGGAGACGAGGAGAGACTTGGAGTG TTGGTCAAGAAACCGAGTGTTGTGAAAGCTATAAAGCTTTTGATGGACCAAGATTGTCAACG TGTAGACGAAAATGATGATGATAATGAATTCGTGAGACGAAGGAGACGTATTCAAGAACTTG CAGTAATGGCGAAAAAGGCTGTGGAAGAAAAGGGATCTTCGAGTATTAACGTTTCAATTTTA ATCCAAGATGTTTTGGAGCAATTGAGTCTCGTGTAG
>UGT74B1
ATGGCGGAAACAACTCCCAAAGTGAAAGGCCACGTCGTAATCTTACCATACCCAGTTCAAGG
CCACCTAAACCCAATGGTTCAATTCGCTAAACGTCTAGTCTCCAAAAACGTCAAAGTCACAA
TCGCCACCACTACCTACACCGCCTCCTCAATCACAACACCATCACTCTCCGTCGAACCAATC
TCCGATGGATTCGATTTCATCCCCATAGGTATCCCCGGTTTCAGCGTCGATACTTACTCAGA
ATCCTTCAAGCTCAACGGATCCGAAACCCTAACTCTCCTAATCGAGAAATTCAAATCCACAG ATTCACC-VVTCGATTGCTTAATCTACGATTCGTTTCTTCCTTGGGGACTTGAAGTTGCTAGA TCTATGGAACTTTCAGCTGCTTCTTTCTTCACTAATAATCTCACTGTTTGTTCTGTGTTGCG
TAAATTCTCTAACGGTGACTTTCCTCTTCCCGCTGATCCTAATTCGGCGCCGTTTCGTATCC GTGGCTTACCGTCTTTGAGCTACGATGAGTTACCTTCGTTTGTGGGACGTCATTGGTTGACT CATCCTGAGCATGGCAGAGTTCTTCTGAATCAGTTTCCTAACCATGAAAATGCTGATTGGTT ATTCGTTAATGGCTTTGAAGGGTTAGAAGAAACACAAGATTGTGAAAATGGTGAGTCTGATG CAATGAAGGCGACGTTGATCGGACCGATGATTCCATCGGCTTATCTTGATGATCGGATGGAA GATGATAAAGACTATGGTGCGAGTCTGTTGAΆACCGATATCGAAGGAGTGTATGGAGTGGCT TGAGACTAAGCAGGCTCAGTCAGTAGCATTTGTTTCGTTTGGTTCGTTTGGGATTCTCTTTG AGAAGCAACTTGCAGAGGTAGCTATTGCGCTACAAGAATCGGATTTGAACTTCTTGTGGGTG ATTAAAGAAGCTCATATAGCGAAATTGCCTGAAGGGTTTGTGGAATCGACTAAAGATAGAGC CTTGTTGGTTTCTTGGTGTAACCAGCTTGAGGTTTTAGCTCATGAATCGATAGGTTGCTTTT TGACTCATTGTGGTTGGAACTCTACGTTGGAAGGGTTGAGTTTGGGAGTTCCGATGGTTGGT GTGCCTCAGTGGAGTGATCAGATGAATGATGCTAAGTTTGTGGAGGAAGTTTGGAAAGTTGG GTATAGAGCGAAAGAGGAAGCTGGGGAAGTAATCGTGAAGAGTGAAGAATTGGTGAGGTGTT TGAAAGGAGTGATGGAAGGAGAGAGTAGTGTGAAGATTAGAGAGAGTTCGAAGAAGTGGAAA GATTTGGCTGTGAAGGCAATGAGTGAAGGAGGAAGCTCTGATCGAAGCATTAACGAGTTTAT AGAGAGTTTAGGGAAGTAA
>UGT74C1
ATGAGTGAAGCAAAGAAGGGTCACGTACTGTTTTTTCCATATCCATTACAAGGCCACATTAA CCCAATGATCCAACTCGCTAAACGCTTATCCAAAAAGGGCATCACCAGCACACTCATCATCG CCTCCAAAGACCACCGTGAACCTTACACCTCCGACGACTACTCCATCACCGTCCACACCATC CACGACGGTTTCTTTCCACATGAACACCCTCACGCCAAGTTCGTAGATCTTGACCGTTTCCA CAACTCTACTTCTCGAAGCCTGACCGATTTCATCTCTAGTGCGAAGTTGTCGGACAATCCTC CAAAAGCTCTGATCTATGATCCATTTATGCCCTTTGCATTGGACATAGCCAAGGACTTGGAT CTATACGTAGTGGCATATTTCACTCAACCATGGTTGGCTAGTCTTGTTTACTACCATATCAA CGAAGGCACCTACGATGTTCCCGTTGATAGACACGAGAACCCAACACTTGCATCGTTTCCTG GTTTCCCATTGTTAAGCCAAGATGATCTGCCTTCGTTCGCCTGCGAAAAAGGGTCGTACCCT CTTCTACACGAGTTTGTGGTTAGGCAATTCTCTAATTTATTGCAAGCTGATTGCATTCTCTG CAACACTTTTGATCAACTTGAACCAAAGGTAGTGAAATGGATGAATGATCAATGGCCGGTGA AGAACATTGGACCGGTGGTTCCATCGAAGTTCTTGGATAACCGGTTGCCAGAAGACAAAGAT TACGAACTCGAGAACTCCAAGACAGAGCCAGACGAGTCTGTTTTGAAGTGGTTGGGAAACAG GCCGGCGAAGTCGGTGGTTTACGTGGCGTTTGGGACATTGGTGGCTTTGAGCGAAAAACAGA TGAAGGAAATTGCAATGGCGATTAGCCAAACCGGATATCACTTCTTGTGGTCTGTTAGAGAA TCCGAGAGAAGCAAACTACCCTCTGGTTTTATCGAAGAGGCAGAGGAGAAAGACTCTGGACT TGTGGCTAAGTGGGTTCCTCAGCTAGAGGTTTTAGCACATGAATCAATCGGGTGTTTCGTGT CACACTGTGGATGGAACTCGACATTGGAGGCACTATGCTTAGGGGTTCCAATGGTGGGCGTG CCTCAGTGGACTGATCAGCCCACAAATGCTAAGTTTATAGAGGATGTGTGGAAGATTGGGGT TAGAGTGAGGACCGATGGAGAAGGGCTTTCGAGTAAAGAAGAGATTGCGAGATGCATTGTTG AGGTCATGGAAGGAGAGAGAGGGAAAGAGATAAGGAAGAATGTTGAGAAGCTTAAGGTGTTG GCTCGCGAAGCTATCTCTGAΆGGAGGTAGTTCCGACAAGAAGATTGATGAGTTTGTTGCTCT TTTGACTTAA
>UGT74D1
ATGGGAGAGAAAGCGAAAGCAAATGTGTTAGTCTTCTCATTTCCGATACAAGGTCACATAAA CCCTCTCCTCCAATTCTCAAΆACGCCTACTCTCTAΆAAACGTCAACGTCACATTCCTCACCA CTTCCTCCACCCACAACTCCATCCTCCGCCGTGCCATCACCGGCGGAGCCACTGCTCTTCCT CTCTCTTTTGTCCCCATTGACGATGGATTCGAGGAAGATCACCCATCTACGGACACATCTCC CGACTACTTCGCAAΆGTTCCAAGAAAACGTATCTCGAAGCCTCTCAGAGCTTATCTCCTCGA TGGACCCAAAACCAAACGCCGTCGTTTACGACTCGTGCCTGCCTTATGTCCTCGACGTTTGC CGGAAACATCCTGGCGTTGCTGCGGCGTCGTTTTTCACTCAGTCCTCCACCGTGAACGCGAC CTATATTCATTTCTTGCGTGGAGAGTTTAAGGAGTTTCAAAATGATGTCGTTTTGCCTGCAA TGCCTCCGCTGAAGGGTAATGACTTACCGGTGTTTCTGTACGATAACAATCTCTGCCGGCCG TTGTTTGAGCTCATTAGTAGCCAGTTCGTGAATGTTGACGACATTGACTTCTTCTTGGTTAA CTCTTTCGACGAACTCGAAGTCGAGGTGCTACAATGGATGAAAAACCAATGGCCGGTCAAGA ACATAGGACCGATGATTCCATCAATGTACTTAGACAAACGATTAGCAGGTGACAAAGACTAC GGAATCAACCTCTTCAATGCCCAAGTCAACGAATGCCTTGATTGGCTTGACTCAAAACCGCC CGGTTCAGTGATCTACGTGTCTTTTGGAAGCTTGGCCGTCTTAAAAGACGATCAAATGATAG AAGTCGCGGCTGGTCTAAAACAAACTGGCCATAΆCTTCTTATGGGTTGTTAGAGAAACTGAA ACAAAGAAGCTTCCAAGCAATTACATAGAGGACATTTGTGACAAGGGATTGATAGTGAATTG GAGTCCTCAATTACAAGTTCTTGCACATAAATCAATCGGTTGTTTCATGACTCATTGCGGGT GGAATTCGACTTTAGAGGCATTGAGCTTAGGAGTTGCTTTGATAGGAATGCCGGCTTATAGC GACCAGCCGACTAΆTGCTAAGTTTATTGAAGATGTGTGGAAGGTTGGGGTTAGGGTTAAGGC AGATCAAAATGGGTTTGTTCCGAAGGAAGAGATTGTGAGATGTGTTGGAGAAGTTATGGAAG ATATGTCGGAGAAAGGGAAGGAGATTAGAAAAAATGCTCGGAGGTTGATGGAGTTTGCAAGG GAAGCTTTGTCTGATGGAGGAAATTCTGATAAGAATATTGATGAGTTTGTTGCTAAAATTGT
GAGGTAA >UGT74E1
ATGAGAGAAGGATCTCATGTTATTGTTTTGCCTTTCCCAGCACAAGGCCACATAACTCCAAT GTCCCAATTCTGTAAACGCTTAGCCTCAAAAAGTCTTAAGATCACTCTTGTCCTCGTCTCCG ACAAGCCCTCTCCGCCGTACAAAACAGAGCACGACACAATCACTGTCGTCCCCATCTCCAAT GGTTTCCAAGAAGGCCAGGAACGATCAGAAGACCTAGATGAGTACATGGAAAGAGTAGAATC CAGCATCAAAAACCGCTTACCGAAGTTGATAGAAGACATGAAACTATCGGGAAATCCTCCTA GGGCTCTTGTGTACGACTCCACCATGCCGTGGCTTCTGGATGTAGCTCATAGTTATGGTTTG AGCGGTGCCGTGTTTTTCACGCAGCCTTGGCTTGTCTCAGCTATTTACTATCATGTATTCAA GGGCTCGTTCTCTGTACCGTCTACAΆAGTATGGTCACTCGACGTTAGCATCTTTCCCTTCGT TACCGATTCTGAATGCGAATGATTTGCCGTCTTTCCTCTGTGAATCTTCCTCTTACCCATAT ATTCTAAGGACTGTGATCGATCAGCTCTCAAACATTGATCGAGTTGATATAGTTTTGTGCAA CACTTTCGATAAATTGGAAGAAAAGTTGCTGAAATGGATTAAAAGCGTGTGGCCTGTCCTGA ACATAGGACCAACTGTTCCATCAATGTATTTAGATAAGCGACTGGCTGAAGACAAAAACTAC GGATTCAGCCTCTTCGGTGCGAAAATCGCTGAATGCATGGAGTGGCTCAACTCAAAGCAGCC TAGTTCAGTTGTTTATGTATCATTTGGGAGCTTGGTGGTTCTAAAAΆAAGATCAACTGATAG AACTAGCGGCGGGTCTGAΆACAGAGCGGACATTTCTTTTTGTGGGTTGTGAGAGAGACGGAG AGAΆGAAAACTTCCAGAAΆACTATATAGAGGAAATTGGTGAGAAAGGACTGACCGTGAGCTG GAGTCCACAACTTGAAGTTCTTACACATAAATCGATCGGTTGTTTCGTGACACATTGTGGAT GGAΆCTCGACGTTAGAGGGATTGAGTTTGGGAGTTCCAATGATTGGTATGCCTCATTGGGCA GATCAGCCTACAAATGCTAAGTTCATGGAGGATGTGTGGAΆAGTTGGAGTTAGGGTTAAAGC AGACAGTGATGGGTTCGTGAGAAGAGAAGAGTTTGTGAGACGTGTGGAAGAAGTTATGGAGG CAGAGCAAGGTAAAGAGATTAGAAAGAATGCTGAGAAATGGAAAGTGTTGGCTCAAGAGGCT GTTTCTGAAGGAGGTAGTTCTGATAAGAACATCAATGAGTTTGTTTCTATGTTTTGTTGA
>UGT74E2
ATGAGAGAAGGATCTCATCTTATCGTCTTGCCTTTCCCAGGACAAGGCCACATAACTCCAAT GTCCCAGTTCTGCAAACGCTTAGCCTCAAAAGGTCTTAAGCTCACTCTGGTCCTCGTCTCCG ACAAACCCTCTCCTCCATACAAAACAGAGCACGACTCAATCACTGTCTTCCCCATCTCCAAC GGCTTCCAAGAAGGCGAGGAACCATTACAAGACCTCGATGATTACATGGAAAGAGTAGAAAC CAGCATCAAAAACACCTTACCGAAGTTGGTTGAAGACATGAAACTGTCGGGAAATCCACCTA GGGCTATCGTGTACGACTCCACCATGCCATGGCTTCTTGATGTAGCTCATAGTTATGGATTG AGCGGTGCCGTGTTTTTCACGCAACCTTGGCTTGTCACAGCTATTTACTACCATGTTTTCAA GGGTTCGTTCTCTGTACCGTCTACAAAGTACGGTCACTCGACATTAGCATCTTTCCCTTCGT TCCCGATGCTGACTGCAAATGATTTGCCGTCTTTCCTCTGCGAATCGTCCTCATACCCGAAT ATACTGAGGATTGTGGTGGATCAGCTCTCAAACATTGATCGAGTCGACATAGTGTTGTGCAA CACTTTCGATAAATTGGAGGAΆAAGTTGTTGAAΆTGGGTCCAAAGCTTGTGGCCAGTCTTGA ATATTGGACCAACGGTTCCATCGATGTATTTAGACAAACGACTGTCTGAAGACAAGAACTAC GGTTTTAGCCTCTTCAATGCGAAAGTCGCTGAATGCATGGAGTGGCTAAACTCAAAGGAGCC TAATTCTGTTGTCTATTTATCATTCGGAAGTTTGGTGATTCTAAAAGAAGATCAAATGTTGG AACTCGCTGCGGGTCTGAAACAGAGCGGACGTTTCTTTCTGTGGGTTGTGAGAGAGACAGAG ACACACAAACTTCCAAGAAACTATGTCGAGGAAATCGGTGAAAAAGGACTTATTGTAAGCTG GAGTCCTCAGCTTGACGTACTTGCACATAAATCAATCGGTTGTTTCTTGACACACTGTGGAT GGAACTCGACGTTAGAGGGATTGAGTTTGGGAGTTCCAATGATTGGTATGCCACACTGGACT GATCAGCCCACGAATGCTAAGTTCATGCAGGATGTGTGGAAGGTTGGGGTAAGGGTTAAGGC AGAAGGTGATGGGTTTGTGAGAAGAGAAGAGATTATGAGAAGTGTGGAAGAAGTTATGGAGG GAGAGAAΆGGGAAAGAGATTAGAΆAGAATGCTGAGAAATGGAAAGTGTTGGCTCAAGAGGCA GTTTCTGAAGGAGGTAGCTCTGATAAGAGCATCAATGAGTTTGTTTCTATGTTTTGTTGA
>UGT74F1
ATGGAGAAGATGAGAGGACATGTATTAGCAGTGCCATTTCCAAGCCAAGGACACATCACCCC GATTCGCCAATTCTGCAAACGACTTCACTCCAAAGGTTTCAAAACCACTCACACTCTCACCA CTTTTATCTTCAACACAATCCACCTCGACCCATCTAGTCCTATCTCCATAGCCACAATCTCC GATGGCTATGACCAGGGAGGGTTCTCATCAGCCGGTTCTGTCCCGGAGTACCTACAAAACTT CAAAACCTTCGGCTCCAAAACCGTCGCTGATATCATCCGCAAACACCAGAGTACTGATAACC CTATTACTTGTATCGTCTATGATTCTTTCATGCCTTGGGCGCTTGACCTTGCAATGGATTTT GGTCTAGCTGCGGCTCCTTTCTTCACGCAGTCTTGCGCCGTTAACTATATCAATTATCTTTC TTACATAAACAATGGTAGCTTGACACTTCCCATCAAGGATTTGCCTCTTCTTGAGCTCCAAG ATTTGCCTACTTTCGTCACTCCTACTGGTTCACACCTTGCTTACTTTGAGATGGTGCTTCAA CAGTTCACCAACTTCGACAAAGCTGATTTCGTACTCGTTAATTCCTTCCATGACCTCGACCT TCATGAAGAGGAGTTGTTGTCGAAAGTATGTCCTGTGTTGACAATTGGTCCAACTGTTCCAT CAATGTACTTAGACCAACAGATCAAATCAGACAACGACTATGATCTGAACCTCTTTGACTTA AAAGAAGCTGCCTTATGCACTGACTGGCTAGACAAGAGGCCAGAAGGATCGGTAGTATATAT AGCTTTTGGGAGCATGGCTAAACTGAGTAGTGAGCAGATGGAAGAGATTGCTTCGGCGATAA GCAACTTCAGCTACCTCTGGGTTGTCAGAGCTTCAGAGGAGTCAAAGCTCCCACCAGGGTTT CTTGAAACAGTGGATAΆAGACAAGAGCTTGGTCTTGAAGTGGAGTCCTCAGCTTCAAGTTCT GTCAAACAAAGCCATCGGTTGTTTCATGACTCACTGTGGCTGGAACTCAACCATGGAGGGTT TGAGTTTAGGGGTTCCCATGGTGGCTATGCCTCAATGGACTGATCAACCAATGAATGCAAAG TATATACAAGATGTATGGAAGGTTGGGGTTCGTGTGAAAGCAGAGAAAGAAAGTGGCATTTG CAAAAGAGAGGAGATTGAGTTTAGCATCAAGGAAGTGATGGAAGGAGAGAAGAGCAAAGAGA TGAAAGAGAATGCGGGAAAATGGAGAGACTTGGCTGTGAAGTCACTCAGTGAAGGAGGTTCT ACAGATATCAACATTAACGAATTTGTATCAAAAATTCAAATCAAATAA
>UGT74F2
ATGGAGCATAAGAGAGGACATGTATTAGCAGTGCCGTACCCAACGCAAGGACACATCACACC
ATTCCGCCAATTCTGCAAACGACTTCACTTCAAAGGTCTCAAAACCACTCTCGCTCTCACCA
CTTTCGTCTTCAACTCCATCAATCCTGACCTATCCGGTCCAATCTCCATAGCCACCATCTCC
GATGGCTATGACCATGGGGGTTTCGAGACAGCTGACTCCATCGACGACTACCTCAAAGACTT
TAAAACTTCCGGCTCGAAAACCATTGCAGACATCATCCAAAAACACCAGACTAGTGATAACC
CCATCACTTGTATCGTCTATGATGCTTTCCTGCCTTGGGCACTTGACGTTGCTAGAGAGTTT
GGTTTAGTTGCGACTCCTTTCTTTACGCAGCCTTGTGCTGTTAACTATGTTTATTATCTTTC
TTACATAAACAATGGAAGCTTGCAACTTCCCATTGAGGAATTGCCTTTTCTTGAGCTCCAAG
ATTTGCCTTCTTTCTTCTCTGTTTCTGGCTCTTATCCTGCTTACTTTGAGATGGTGCTTCAA
CAGTTCATAAATTTCGAAAAAGCTGATTTCGTTCTCGTTAATAGCTTCCAAGAGTTGGAACT
GCATGAGAATGAATTGTGGTCGAAAGCTTGTCCTGTGTTGACAATTGGTCCAACTATTCCAT
CAATTTACTTAGACCAACGTATCAAATCAGACACCGGCTATGATCTTAATCTCTTTGAATCG
AAAGATGATTCCTTCTGCATTAACTGGCTCGACACAAGGCCACAAGGGTCGGTGGTGTACGT
AGCATTCGGAAGCATGGCTCAGCTGACTAATGTGCAGATGGAGGAGCTTGCTTCAGCAGTAA
GCAACTTCAGCTTCCTGTGGGTGGTCAGATCTTCAGAGGAGGAAAAACTCCCATCAGGGTTT
CTTGAGACAGTGAATAAAGAAAAGAGCTTGGTCTTGAAATGGAGTCCTCAGCTTCAAGTTCT
GTCAAACAAAGCCATCGGTTGTTTCTTGACTCACTGTGGCTGGAACTCAACCATGGAGGCTT
TGACCTTCGGGGTTCCCATGGTGGCAATGCCCCAATGGACTGATCAACCGATGAACGCAAAG
TACATACAAGATGTGTGGAAGGCTGGAGTTCGTGTGAAGACAGAGAAGGAGAGTGGGATTGC
CAAGAGAGAGGAGATTGAGTTTAGCATTAAGGAAGTGATGGAAGGAGAGAGGAGCAAAGAGA
TGAAGAAGAACGTGAAGAAATGGAGAGACTTGGCTGTCAAGTCACTCAATGAAGGAGGTTCT
ACGGATACTAACATTGATACATTTGTATCAAGGGTTCAGAGCAAATAG
>UGT75B1
ATGGCGCCACCGCATTTTCTACTGGTAACGTTTCCGGCGCAAGGTCACGTGAACCCATCTCT
CCGTTTTGCTCGTCGGCTCATCAAAAGAACCGGCGCACGTGTCACTTTCGTCACTTGTGTCT CCGTCTTCCACAACTCCATGATCGCAAACCACAACAAAGTCGAAAATCTCTCTTTCCTTACT TTCTCCGACGGTTTCGACGATGGAGGCATTTCCACCTACGAAGACCGTCAGAAAAGGTCGGT GAATCTCAAGGTTAACGGCGATAAGGCACTATCGGATTTCATCGAAGCTACTAAGAATGGTG ACTCTCCCGTGACTTGCTTGATCTACACGATTCTTCTCAATTGGGCTCCAAAAGTAGCACGT AGATTTCAACTTCCCTCCGCTCTTCTCTGGATCCAACCGGCTTTGGTTTTCAACATCTATTA CACTCATTTCATGGGAAACAAGTCCGTTTTCGAGTTACCTAATCTGTCTTCTCTGGAΆATCA GAGATCTTCCATCTTTCCTCACACCTTCCAACACAAACAAAGGCGCATACGATGCGTTTCAA GAAATGATGGAGTTTCTCATAAAAGAAACCAAACCGAAAATTCTCATCAACACTTTCGATTC GCTGGAΆCCAGAGGCCTTAACGGCTTTCCCGAATATCGATATGGTGGCGGTTGGTCCTTTAC TTCCCACGGAGATTTTCTCAGGAAGCACCAACAAATCAGTTAAAGATCAAAGTAGTAGTTAT ACACTTTGGCTAGACTCGAAAACAGAGTCCTCTGTTATTTACGTTTCCTTTGGAACAATGGT TGAGTTGTCCAAGAAACAGATAGAGGAACTAGCGAGAGCACTCATAGAAGGGAAACGACCGT TTTTGTGGGTTATAACTGATAAATCCAACAGAGAAACGAAAACAGAAGGAGAAGAAGAGACA GAGATTGAGAAGATAGCTGGATTCAGACACGAGCTTGAAGAGGTTGGGATGATTGTGTCGTG GTGTTCGCAGATAGAGGTTTTAAGTCACCGAGCCGTAGGTTGTTTTGTGACTCATTGTGGGT GGAGCTCGACGCTGGAGAGTTTGGTTCTTGGCGTTCCGGTTGTGGCGTTTCCGATGTGGTCG GATCAACCGACGAACGCGAAGCTACTGGAAGAAAGTTGGAAGACTGGTGTGAGGGTAAGAGA GAACAAGGATGGTTTGGTGGAGAGAGGAGAGATCAGGAGGTGTTTGGAAGCCGTGATGGAGG AGAAGTCGGTGGAGTTGAGGGAAAACGCAAAGAAATGGAAGCGTTTAGCGATGGAAGCGGGT AGAGAAGGAGGATCTTCGGATAAGAACATGGAGGCTTTTGTGGAGGATATTTGTGGAGAATC TCTTATTCAAAACTTGTGTGAAGCAGAGGAGGTAAAAGTAAAGTAA
>UGT75B2
ATGGCGCAACCGCATTTTCTACTGGTAACGTTTCCGGCGCAAGGTCACGTGAACCCATCTCT CCGTTTTGCTCGTCGGCTCATCAAAACAACTGGCGCACGTGTAACTTTCGCCACGTGTCTCT CTGTCATTCACCGCTCTATGATCCCAAACCACAACAACGTCGAAAATCTCTCTTTCCTTACT TTCTCCGACGGATTCGACGACGGAGTCATCTCCAACACCGACGACGTCCAAAACCGGTTGGT ACACTTCGAACGTAATGGCGATAAAGCTCTATCGGATTTCATCGAAGCTAATCAGAATGGTG ACTCTCCCGTAAGTTGCTTGATCTACACGATTCTTCCCAACTGGGTTCCAAAAGTGGCGCGT AGATTTCATCTTCCCTCTGTTCATCTCTGGATCCAACCAGCCTTCGCTTTCGACATTTATTA CAATTACTCTACAGGAAACAACTCCGTTTTCGAGTTCCCGAATCTACCTTCTCTCGAAATCC GCGATCTGCCTTCTTTCCTCTCACCTTCCAACACGAACAAAGCCGCACAAGCAGTATATCAA GAACTGATGGATTTTCTCAAAGAAGAATCTAACCCGAAAATTCTCGTCAACACATTCGATTC GCTGGAGCCAGAGTTCTTAACAGCTATTCCGAATATAGAAATGGTGGCAGTTGGTCCTTTAC TTCCTGCGGAGATTTTCACTGGAAGCGAATCAGGTAAAGATTTATCAAGAGATCATCAAAGT AGTAGTTATACACTTTGGTTAGACTCGAAAACAGAGTCCTCTGTTATTTATGTTTCTTTTGG AACAATGGTTGAGTTGTCGAAGAAACAGATAGAGGAACTAGCGAGAGCACTCATAGAAGGGG GAAGACCGTTCTTGTGGGTTATAACTGATAAACTCAACAGAGAAGCGAAAATAGAAGGAGAA GAAGAGACAGAGATTGAGAAGATAGCTGGTTTTAGACACGAGCTTGAAGAGGTTGGGATGAT TGTCTCGTGGTGTTCGCAGATAGAGGTTTTGAGACACCGAGCCATAGGTTGTTTTTTGACTC ATTGTGGGTGGAGCTCATCACTGGAGAGTTTGGTTCTCGGCGTTCCAGTGGTGGCGTTTCCG ATGTGGTCGGATCAGCCAGCAAΆTGCGAAGCTTTTGGAAGAAATATGGAAGACAGGTGTGAG GGTGAGAGAGAACTCGGAAGGTTTAGTAGAGAGAGGAGAGATAATGCGGTGTTTGGAAGCAG TGATGGAGGCGAAATCGGTGGAGCTGAGGGAAAACGCAGAGAAATGGAAGCGTTTAGCGACT GAAGCGGGTAGAGAAGGAGGATCTTCGGACAAGAATGTGGAAGCTTTTGTGAAGAGTCTGTT
TTGA
>UGT75C1
ATGGCCACTTCCGTCAATGGTTCCCATCGTCGTCCACATTACTTGCTTGTAACATTCCCAGC
GCAAGGTCACATCAACCCGGCGCTTCAACTAGCCAACCGCCTCATCCACCACGGTGCAACCG
TCACATACTCCACCGCAGTCTCTGCTCACCGACGTATGGGCGAGCCACCTTCCACAAAAGGT
CTATCCTTCGCTTGGTTCACCGATGGATTCGACGACGGTCTCAAGTCATTCGAAGACCAGAA
AATCTACATGTCCGAACTCAAACGATGTGGTTCAAACGCCCTGAGAGACATCATCAAAGCCA
ATCTTGACGCCACCACCGAAACAGAGCCTATCACCGGGGTAATCTACTCTGTTCTCGTCCCG
TGGGTTTCTACGGTAGCGCGTGAGTTTCACCTCCCAACTACACTTCTCTGGATTGAACCAGC
TACTGTACTAGACATCTACTACTACTACTTCAACACCTCTTACAAACATCTCTTCGACGTTG AACCGATTAAATTACCGAAACTGCCACTGATCACCACCGGTGACCTCCCGTCGTTTCTTCAA CCTTCGAAGGCATTACCGTCAGCTCTTGTGACTCTAAGAGAACATATCGAAGCTCTCGAAAC GGAATCAAACCCTAAGATTCTTGTTAACACATTCTCTGCTTTGGAACACGATGCTTTAACCT CTGTTGAGAAACTCAAGATGATCCCAATCGGACCGTTGGTTTCTTCCTCCGAGGGTAAAACC GATCTTTTCAAATCTTCCGACGAGGATTACACGAΆΆTGGTTAGACTCGAAGCTCGAGAGATC AGTGATTTACATTTCCTTAGGCACACACGCCGATGATTTACCAGAGAAACACATGGAAGCGC TTACTCACGGCGTGTTAGCTACAAACAGACCGTTTTTATGGATCGTGAGGGAGAΆAAATCCA GAAGAGAAGAAGAAGAATCGGTTTCTTGAATTGATCAGAGGAAGTGATCGAGGATTGGTGGT GGGATGGTGTTCTCAGACAGCTGTTTTGGCGCATTGTGCTGTGGGATGTTTTGTGACTCATT GTGGTTGGAATTCGACGTTGGAGAGTTTAGAGAGTGGTGTTCCGGTGGTTGCGTTTCCGCAG TTTGCTGATCAGTGTACAACGGCGAAGCTTGTGGAGGATACGTGGAGGATTGGAGTGAAGGT GAAGGTTGGGGAGGAAGGAGATGTGGATGGGGAGGAGATTAGAAGGTGTTTGGAGAAGGTGA TGAGTGGTGGAGAAGAGGCGGAGGAGATGAGAGAGAATGCAGAGAAGTGGAAGGCGATGGCT GTTGATGCGGCAGCGGAAGGTGGACCGTCGGATTTGAATCTTAAAGGTTTTGTGGACGAGGA
TGAGTAG >UGT75D1
ATGGCCAACAACAATTCCAACTCTCCCACCGGTCCACACTTTCTATTCGTAACATTTCCAGC CCAAGGTCACATCAACCCATCTCTCGAGCTAGCCAAACGCCTCGCCGGAACAATCTCTGGTG CTCGAGTCACCTTCGCCGCCTCAATCTCTGCCTACAACCGCCGCATGTTCTCTACAGAAAAC GTCCCCGAAACCCTAATCTTCGCTACCTACTCCGATGGCCACGACGACGGTTTCAAATCCTC TGCTTACTCCGACAAATCTCGTCAAGACGCCACTGGAAACTTCATGTCTGAGATGAGACGAC GTGGCAAAGAGACACTAACCGAACTAATCGAAGATAACCGGAAACAAAACAGGCCTTTTACT TGCGTGGTTTACACGATTCTCCTCACTTGGGTCGCTGAGCTAGCGCGTGAGTTTCATCTTCC TTCTGCTCTTCTTTGGGTCCAΆCCAGTAACAGTCTTCTCCATTTTTTACCATTACTTCAATG GCTACGAAGATGCAATCTCAGAGATGGCTAATACCCCCTCTAGTTCTATTAAATTACCTTCT CTGCCACTGCTTACTGTCCGTGATATTCCTTCTTTCATTGTCTCTTCCAATGTCTACGCGTT TCTTCTACCCGCGTTTCGAGAACAGATTGATTCACTGAAGGAAGAΆATAAACCCTAAGATCC TCATCAACACTTTCCAAGAGCTTGAGCCAGAAGCCATGAGCTCGGTTCCAGATAATTTCAAG ATTGTCCCTGTCGGTCCGTTACTAACGTTGAGAACGGATTTTTCGAGTCGCGGTGAΆTACAT AGAGTGGTTGGATACTAAAGCGGATTCGTCTGTGCTTTATGTTTCGTTCGGGACGCTTGCCG TGTTGAGCAAGAAACAGCTTGTGGAGCTTTGTAAΆGCGTTGATACAAAGTCGGAGACCATTC TTGTGGGTGATTACGGATAAGTCGTACAGAAATAAAGAAGATGAGCAAGAGAAGGAAGAAGA TTGCATAAGTAGTTTCAGAGAAGAGCTCGATGAGATAGGAATGGTGGTTTCATGGTGTGATC AGTTTAGGGTTTTGAATCATAGATCGATAGGTTGTTTCGTGACGCATTGCGGGTGGAACTCT ACGCTGGAGAGCTTGGTTTCAGGAGTTCCGGTGGTGGCGTTTCCGCAATGGAATGATCAGAT GATGAACGCGAAGCTTTTAGAAGATTGTTGGAAAACAGGTGTAAGAGTGATGGAGAAGAAGG AAGAAGAAGGAGTTGTGGTGGTGGATAGTGAGGAGATACGGCGGTGCATTGAGGAAGTTATG GAAGACAAGGCGGAGGAGTTTAGAGGAAATGCCACGAGGTGGAAGGATTTAGCGGCGGAGGC TGTGAGAGAAGGAGGCTCTTCCTTTAATCATCTCAAAGCTTTTGTCGATGAGCACATGTGA
>UGT76B1
ATGGAGACTAGAGAAACAAAACCAGTGATCTTTCTCTTCCCTTTCCCTTTACAAGGTCACTT AAACCCAATGTTTCAGCTCGCCAACATCTTCTTCAACAGAGGCTTCTCCATCACTGTGATCC ACACTGAGTTCAACTCTCCAAACTCTTCCAATTTCCCTCATTTCACTTTCGTATCCATCCCC GATAGCTTGTCTGAACCΪGAATCCTATCCCGATGTCATCGAGATTCTCCATGACCTCAATTC CAAGTGTGTTGCTCCTTTTGGTGATTGCTTAAAGAAGCTTATATCTGAAGAACCAACAGCAG CTTGTGTGATTGTTGACGCTCTTTGGTACTTCACTCACGATTTAACCGAGAAATTCAATTTC CCGAGGATTGTTCTCCGAACCGTTAΆCCTCTCAGCTTTCGTCGCTTTCTCAAAGTTTCATGT TTTACGAGAGAAAGGGTATCTTTCTTTACAAGAGACTAAGGCAGACTCACCGGTTCCGGAGC TTCCGTATCTTAGAATGAAGGATCTTCCATGGTTCCAGACAGAAGATCCAAGATCAGGGGAT AAGTTACAGATAGGTGTGATGAAGTCACTAAAGTCTTCCTCAGGAATCATATTCAACGCCAT TGAAGATCTTGAAACAGATCAGCTTGATGAAGCCCGCATAGAATTCCCAGTTCCACTCTTCT GTATTGGACCCTTTCACAGGTACGTTTCAGCTTCATCCAGTAGCTTACTTGCACACGACATG ACTTGTCTCTCCTGGTTAGACAAGCAAGCAACAAATTCCGTAATCTACGCAAGTCTTGGAAG CATTGCTTCGATCGATGAATCTGAΆTTCTTGGAGATTGCTTGGGGTCTAAGAAΆCAGCAACC AACCTTTTCTATGGGTGGTTAGACCCGGTTTAATCCACGGGAAAGAATGGATCGAGATTCTG CCTAAAGGGTTCATCGAAAATCTCGAGGGCCGGGGTAAAATAGTGAAATGGGCACCTCAGCC TGAAGTTTTAGCTCACCGTGCAACAGGCGGATTCTTAACACATTGTGGATGGAACTCAACAC TTGAGGGCATATGTGAΆGCTATACCAATGATATGCAGACCATCTTTTGGGGACCAGAGGGTG AATGCTAGATACATTAACGATGTTTGGAAGATCGGATTGCATTTGGAAAACAAGGTAGAGAG ACTAGTGATCGAAAACGCGGTTAGAACACTAATGACGAGCTCGGAAGGGGAAGAGATCCGCA AGAGGATTATGCCCATGAAGGAAACTGTTGAACAATGCCTTAΆGCTTGGAGGTTCATCATTT CGGAΆTCTCGAAAACTTAATTGCTTATATATTGTCTTTCTAA
>UGT76C1
ATGGAGAAGAGAAACGAGAGACAAGTGATTCTTTTTCCTCTACCATTACAAGGTTGCATAAA CCCTATGCTTCAGCTAGCAAAGATCCTTTACTCAAGAGGTTTTTCGATCACCATCATCCACA CGCGCTTCAACGCGCCCAAATCTTCAGACCATCCTCTCTTCACTTTCTTACAAATCCGCGAC GGCTTGTCTGAATCTCAGACTCAATCTCGTGATCTTTTGCTTCAACTCACGCTTCTCAACAA CAATTGTCAGATCCCATTTCGAGAGTGTTTGGCTAAACTCATTAAACCTAGTTCAGATTCAG GAACAGAGGATAGGAAΆATTAGCTGTGTGATCGATGATTCCGGTTGGGTTTTCACACAATCC
GTGGCGGAGAGTTTTAATCTTCCTCGATTTGTCCTCTGTGCTTATAAGTTCTCTTTCTTTCT CGGACATTTTCTTGTTCCTCAGATTCGTCGTGAAGGGTTTCTTCCAGTACCAGATTCGGAGG CAGATGATCTAGTTCCTGAGTTTCCACCGCTTCGAAAGAAAGATCTTTCGAGAATTATGGGA ACCAGCGCTCAGAGTAAGCCTCTAGATGCTTACTTGCTTAAGATACTCGACGCGACGAAGCC AGCTTCAGGGATTATAGTTATGTCCTGCAAAGAGCTTGACCATGATTCACTTGCTGAGTCCA ACAAAGTTTTCAGCATTCCGATATTTCCCATTGGCCCTTTTCACATTCATGACGTCCCAGCC TCGTCTAGCAGCTTGTTAGAACCGGACCAGAGTTGCATTCCATGGTTAGATATGCGTGAAAC GAGATCAGTAGTCTACGTGAGCTTAGGGAGCATTGCGAGTCTTAACGAGTCTGACTTCTTGG AGATTGCTTGTGGACTAAGAAACACCAACCAATCCTTCTTGTGGGTTGTCCGGCCTGGTTCA GTCCATGGCAGAGATTGGATCGAATCATTACCTTCAGGGTTCATGGAAAGTCTCGATGGTAA AGGAAAGATAGTGAGATGGGCACCGCAGCTAGACGTTCTTGCGCATAGAGCCACGGGAGGGT TTTTGACTCATAATGGATGGAACTCGACATTAGAGAGTATATGCGAAGGAGTACCTATGATC TGCTTGCCTTGTAAGTGGGACCAATTTGTAAACGCGAGATTCATAAGCGAAGTTTGGAGGGT TGGGATTCACTTGGAAGGTCGGATAGAGCGAAGAGAAATCGAGAGAGCTGTTATAAGACTAA TGGTTGAGTCGAAAGGAGAAGAGATTCGAGGTAGAATCAAAGTCTTGCGAGACGAAGTAAGA AGGTCAGTTAAACAAGGAGGTTCGTCATATCGATCTTTAGATGAGTTGGTTGATCGTATATC AATCATCATCGAGCCACTAGTGCCTACGTGA
>UGT76C2
ATGGAGGAGAAGAGAAATGGTCTGCGTGTGATTCTCTTCCCTCTTCCATTACAAGGTTGCAT CAACCCTATGCTTCAGCTCGCCAΆCATCCTTCACGTAAGAGGCTTCTCCATTACCGTGATCC ACACGCGCTTCAACGCGCCAAAAGCTTCAAGCCATCCTCTCTTCACTTTCTTACAGATTCCT GATGGTTTGTCTGAAACGGAGATTCAAGATGGTGTTATGTCTTTGCTCGCGCAAATCAACCT TAACGCTGAGTCTCCGTTTCGTGATTGCTTGCGTAAAGTGTTGCTGGAATCAAAAGAGTCAG AGAGGGTTACTTGTTTGATCGATGACTGTGGATGGCTCTTCACACAATCTGTTTCAGAGAGT TTGAΆGCTTCCGAGGCTCGTTCTCTGTACTTTTAAAGCCACTTTCTTCAATGCTTATCCGAG TCTTCCACTTATCCGAACCAAGGGATATCTTCCAGTTTCAGAATCGGAAGCAGAGGACTCTG TTCCTGAGTTCCCGCCGCTTCAAAAGAGAGATCTTTCAAAGGTTTTCGGGGAGTTCGGAGAG AAACTCGATCCGTTCTTACATGCTGTAGTCGAAACGACAATAAGATCTTCAGGGTTAATATA CATGTCCTGCGAΆGAGCTTGAGAAAGATTCGTTGACTCTTTCTAΆCGAAATTTTTAAΆGTTC CGGTTTTTGCAATTGGTCCGTTTCACAGCTACTTCTCTGCTTCGTCAAGCAGCTTGTTCACA CAAGACGAGACTTGCATTCTGTGGTTAGATGATCAAGAAGATAAATCTGTGATCTACGTTAG TCTAGGAAGCGTTGTGAACATAACGGAΆACAGAGTTCTTGGAGATTGCGTGTGGTTTAAGCA ATAGCAAACAGCCTTTCTTGTGGGTAGTACGACCCGGTTCAGTACTCGGCGCGAAATGGATC GAACCGCTCTCTGAAGGGCTGGTTAGTAGCCTTGAAGAGAAAGGAAAGATTGTGAAATGGGC ACCACAACAGGAGGTTCTTGCGCATCGTGCCACAGGAGGGTTTTTGACACACAATGGTTGGA ACTCAACGCTAGAGAGTATATGCGAAGGGGTTCCTATGATCTGCCTACCAGGAGGTTGGGAT CAAATGCTGAATTCAAGATTTGTTAGCGATATTTGGAAGATTGGAATTCACTTGGAAGGTCG GATTGAAAAAAAGGAGATTGAGAAAGCTGTGAGGGTGTTAATGGAGGAΆAGTGAAGGAAATA AGATTCGTGAGAGAATGAAAGTTCTGAAAGATGAGGTCGAGAAATCGGTCAAACAAGGAGGC TCATCTTTTCAATCTATTGAGACTCTAGCTAATCATATACTATTGTTGTAA
>UGT76C3
ATGGATAAGAGTAATGGCCTACGAGTGATTCTGTTTCCACTTCCATTACAAGGATGCATCAA CCCCATGATTCAGCTAGCGAAGATCCTCCACTCAAGAGGTTTCTCCATCACTGTGATCCACA CGCGCTTCAATGCGCCAAAAGCTTCAAACCACCCTCTGTTCACCTTCTTACAGATCCCAGAT GGCTTGTCTGAAACAGAGACAAGAACTCACGATATCACACTTCTCCTAACGCTTCTCAACCG AAGCTGTGAGTCTCCATTTCGTGAATGTTTGACTAAACTTTTGCAGTCTGCAGATTCAGAAA CAGGGGAAGAGAAACAGAGGATTAGCTGTTTGATCGATGATTCTGGATGGATATTCACACAG CCCGTTGCTCAGAGTTTCAATCTCCCGAGATTGGTCCTTAACACCTACAAAGTCTCCTTCTT TCGGGACCATTTTGTTCTTCCTCAACTCCGTCGTGAAATGTATCTTCCATTACAAGATTCAG AACAAGGTGATGATCCAGTTGAGGAGTTTCCACCCCTTCGAAAGAAAGATCTTTTACAAATT CTTGATCAAGAATCGGAGCAACTAGACTCGTACTCCAATATGATTTTGGAAACAACAAAAGC GTCTTCAGGTCTTATATTTGTATCCACATGTGAAGAGTTGGACCAAGACTCACTGAGTCAAG CACGTGAAGATTATCAAGTCCCAATCTTTACGATAGGACCTTCTCATAGCTACTTCCCAGGC TCATCTAGTAGCTTGTTCACAGTGGACGAGACTTGCATTCCATGGTTAGACAAGCAAGAAGA CAAATCCGTGATTTACGTGAGTTTTGGGAGCATCTCGACCATTGGCGAAGCAGAATTCATGG AGATTGCTTGGGCTCTAAGAAACAGCGACCAACCGTTCTTGTGGGTCGTACGGGGTGGTTCG GTAGTCCATGGTGCAGAATGGATCGAΆCAGCTTCATGAGAAAGGAAAGATAGTGAATTGGGC CCCACAACAAGAGGTTCTAAAGCATCAAGCCATTGGAGGATTCTTGACACACAATGGTTGGA ACTCGACGGTTGAGAGTGTTTTTGAAGGCGTCCCTATGATATGTATGCCTTTTGTATGGGAC CAATTGCTTAATGCAAGATTTGTTAGTGATGTATGGATGGTTGGGCTGCATCTAGAGGGTCG GATTGAGAGGAATGTGATTGAGGGAATGATAAGAAGATTATTTTCGGAAACTGAAGGAAAAG CGATCCGAGAGAGGATGGAAATTCTTAAGGAGAATGTAGGAAGATCCGTTAAACCAAAAGGT TCGGCGTATCGATCGTTACAACATTTGATTGATTATATAACATATTTCTAG
>UGT76C4
ATGGAGAAGAGTAATGGCCTGCGAGTGATTCTGTTTCCACTTCCATTACAAGGCTGCATCAA CCCTATGATTCAGCTCGCCAAGATCCTCCACTCAAGAGGTTTTTCAATCACTGTGATCCACA CTTGCTTCAACGCGCCAAAAGCTTCAAGCCATCCACTCTTCACCTTCATACAGATCCAAGAT GGCTTGTCTGAAACAGAGACAAGAACTCGCGACGTCAAACTTCTCATAACACTTCTCAACCA AAATTGCGAGTCTCCGGTTCGTGAATGTTTGCGTAAACTGTTGCAATCTGCCAAGGAAGAGA AACAGAGGATTAGCTGTTTGATCAATGATTCTGGTTGGATCTTCACTCAACACTTAGCCAAG AGTTTGAATCTCATGAGATTGGCCTTTAATACCTATAAGATCTCCTTCTTTCGAAGCCATTT TGTTCTTCCTCAGCTCCGGCGTGAAATGTTTCTTCCATTACAAGATTCAGAACAAGATGATC CAGTTGAGAAGTTTCCACCGCTTAGAAAGAAAGATCTTTTACGGATTCTTGAAGCAGATTCG GTGCAGGGAGACTCGTACTCGGATATGATTTTGGAAAAGACAΆAGGCGTCTTCAGGTCTTAT ATTCATGTCCTGTGAAGAGTTGGACCAAGACTCACTGAGTCAATCACGTGAAGATTTTAAGG TTCCGATATTTGCGATAGGACCTTCTCATAGCCATTTTCCTGCTTCTTCTAGTAGCTTGTTC ACACCGGACGAGACTTGCATCCCATGGTTAGACAGACAAGAAGACAAATCCGTAATATACGT GAGTATTGGGAGCCTCGTGACCATCAACGAAACAGAGCTAATGGAGATTGCTTGGGGTCTAA GTAACAGCGACCAACCATTTTTATGGGTCGTCCGGGTTGGTTCAGTCAATGGCACGGAATGG ATTGAAGCAATCCCGGAATATTTCATCAAAAGGCTTAATGAGAAGGGAAAGATAGTGAAATG GGCTCCACAACAAGAGGTTCTAAAGCATCGAGCTATTGGAGGTTTCTTGACACATAATGGTT GGAACTCGACGGTTGAGAGTGTTTGTGAAGGCGTCCCTATGATCTGTTTGCCTTTTCGTTGG GACCAATTGTTAAΆTGCAAGATTTGTTAGTGATGTATGGATGGTTGGGATACATCTCGAGGG TCGGATTGAGAGGGATGAGATCGAGAGAGCGATAAGGAGATTATTGTTGGAAACTGAAGGAG AAGCCATCCGAGAGAGGATACAACTTCTTAAGGAAAAAGTAGGAAGATCAGTTAAACAΆAAC GGTTCGGCATATCAATCTCTACAAAATTTGATTAATTATATATCATCTTTCTAG
>UGT76C5
ATGGAGAAGAGTAATGGCCTTCGAGTGATTCTGTTTCCACTTCCATTACAAGGCTGCATCAA CCCCATGATTCAGCTCGCCAAGATCCTCCACTCAAGAGGTTTCTCCATCACTGTGATCCACA CGTGCTTCAACGCGCCAAAAGCTTCAAGCCATCCTCTCTTCACCTTCTTAGAGATCCCAGAT GGCTTGTCCGAAACAGAGAAAAGAACTAΆCAATACCAAACTTCTCCTAACGCTTCTCAACCG GAACTGTGAGTCTCCGTTTCGTGAATGTTTGAGTAAACTGTTGCAGTCTGCAGATTCAGAAA CAGGGGAAGAGAAACAGAGGATTAGCTGTTTGATCGCTGATTCTGGATGGATGTTCACACAA CCCATTGCTCAGAGTTTGAAACTCCCAATATTGGTCCTCAGTGTGTTTACAGTCTCCTTCTT TCGCTGCCAATTTGTTCTTCCTAAGCTTCGGCGTGAAGTGTATCTTCCACTTCAAGATTCAG AACAGGAGGATCTAGTTCAAGAGTTTCCGCCGCTTCGAAAGAAGGATATTGTACGTATTCTT GATGTAGAAACAGATATACTAGATCCATTCTTGGACAAΆGTTCTACAAATGACAAAGGCGTC TTCAGGTCTTATATTCATGTCATGTGAAGAGTTGGACCACGACTCAGTGAGTCAGGCACGTG AAGATTTCAAAATTCCTATCTTTGGGATTGGACCATCTCACAGCCACTTTCCAGCTACCTCT AGTAGCTTGTCCACACCCGACGAGACTTGCATTCCATGGTTAGACAAACAAGAAGACAAATC CGTGATTTACGTCAGTTACGGGAGCATCGTGACCATCAGCGAATCAGATTTAATAGAGATTG CTTGGGGTCTAAGAAACAGCGACCAACCCTTCTTGTTGGTCGTACGGGTTGGTTCAGTCCGT GGCAGAGAATGGATCGAGACAATCCCGGAAGAGATCATGGAAAAGCTTAATGAGAAGGGAAA GATAGTGAAATGGGCTCCGCAACAAGACGTTCTAAAGCATCGAGCCATTGGGGGATTCCTGA CACATAATGGTTGGAGCTCGACTGTTGAGAGTGTTTGTGAAGCAGTCCCTATGATCTGTTTG CCTTTTCGTTGGGACCAAATGCTAAΆTGCAAGATTTGTTAGCGATGTATGGATGGTCGGGAT AAACCTAGAGGATCGGGTTGAAAGGAATGAGATCGAGGGAGCGATAAGGAGATTATTGGTGG AACCTGAAGGAGAAGCCATCCGAGAGAGGATAGAACATCTTAAGGAGAAAGTAGGACGATCG TTTCAACAAAACGGTTCCGCATATCAATCGTTACAAAATTTGATTGATTATATATCATCTTT
TTAG >UGT76D1
ATGGCAGAGATTCGCCAGAGAAGAGTGTTGATGGTCCCAGCACCGTTCCAAGGCCATTTACC TTCGATGATGAATCTAGCGTCCTACCTTTCTTCCCAAGGCTTTTCAATCACAATCGTTAGAA ACGAATTCAATTTCAAAGATATCTCCCATAATTTCCCTGGTATAAAATTCTTCACCATCAAG GACGGCTTGTCAGAATCTGACGTGAAGTCTCTGGGTCTCCTTGAATTTGTCCTGGAGCTTAA CTCTGTCTGTGAACCCCTATTGAAAGAGTTTCTAACCAACCATGATGATGTTGTTGACTTTA TCATTTATGATGAATTTGTTTACTTCCCTCGACGTGTTGCGGAAGATATGAATCTGCCAAAG ATGGTCTTTAGCCCTTCTTCCGCCGCTACCTCGATCAGCCGGTGTGTGCTTATGGAGAACCA ATCAAATGGGTTACTTCCTCCACAAGACGCAAGATCTCAACTAGAAGAAACGGTGCCAGAGT TTCATCCCTTTCGTTTCAAAGATCTGCCTTTTACAGCTTATGGATCTATGGAGAGATTAATG ATACTTTACGAGAATGTAAGCAATAGAGCCTCATCTTCTGGCATAATACACAΆCTCTTCGGA TTGCTTAGAGAACTCATTCATAACAACTGCACAAGAGAAATGGGGAGTTCCGGTATACCCGG TTGGTCCACTCCATATGACCAATTCCGCAATGTCATGTCCAAGTTTATTTGAAGAAGAAAGA AACTGTCTTGAATGGCTTGAGAAGCAAGAAACAAGCTCAGTGATCTACATAAGCATGGGGAG CTTGGCGATGACACAAGATATAGAGGCTGTGGAGATGGCCATGGGATTTGTCCAGAGTAATC AACCCTTCTTGTGGGTGATCCGACCAGGCTCTATAAACGGACAAGAATCTTTAGACTTCTTA CCGGAACAGTTCAACCAAACGGTGACCGATGGAAGAGGTTTTGTTGTGAAATGGGCCCCACA AAAAGAGGTATTAAGGCATAGAGCAGTGGGAGGGTTTTGGAACCATGGTGGATGGAACTCGT GCTTGGAGAGCATAAGCAGTGGTGTACCAATGATTTGTAGGCCGTATTCTGGTGATCAGAGG GTGAATACTCGACTTATGTCACATGTTTGGCAAACCGCGTATGAGATCGAAGGTGAATTGGA AAGAGGAGCTGTTGAGATGGCCGTGAGGAGGCTCATTGTGGATCAAGAAGGTCAGGAGATGA GAATGAGAGCCACCATATTGAAGGAAGAGGTTGAAGCCTCTGTCACAACCGAAGGCTCTTCT CACAATTCTTTAAACAATTTGGTCCATGCAATAATGATGCAAATTGACGAACAATGA
>UGT76E1
ATGGAAGAACTAGGAGTGAAGAGAAGGATAGTATTGGTTCCAGTTCCAGCACAAGGTCATGT AACTCCGATTATGCAACTCGGGAAGGCTCTTTACTCCAAGGGCTTCTCCATCACTGTTGTTC TCACACAGTATAATCGAGTTAGCTCATCCAAGGACTTCTCTGATTTTCATTTCCTCACCATC CCAGGCAGCTTGACCGAGTCTGATCTCAAAAACCTTGGACCATTCAAGTTTCTCTTCAAGCT CAATCAAATTTGCGAGGCAAGCTTCAAGCAATGTATTGGTCAACTATTGCAGGAGCAAGGTA ATGATATCGCTTGTGTCGTCTACGATGAGTACATGTACTTCTCCCAAGCTGCAGTTAAAGAG TTTCAACTTCCTAGCGTCCTCTTCAGCACGACAAGTGCTACTGCCTTTGTCTGTCGCTCTGT TTTGTCTAGAGTCAACGCAGAGTCATTCTTGCTTGACATGAAAGATCCCAAAGTGTCAGACA AGGAATTTCCAGGGTTGCATCCGCTAAGGTACAAGGACCTGCCAACTTCAGCATTTGGGCCA TTAGAGAGTATACTCAAGGTTTACAGTGAGACTGTCAACATTCGAACAGCTTCGGCAGTTAT CATCAACTCAACAAGCTGTCTAGAGAGCTCATCTTTGGCATGGTTACAAAAACAΆCTGCAAG TTCCAGTGTATCCTATAGGCCCACTTCACATTGCAGCTTCAGCGCCTTCTAGTTTACTTGAA GAGGACAGGAGTTGCCTTGAGTGGTTGAACAAGCAAAAAATAGGCTCAGTGATTTACATAAG TTTGGGAΆGCTTGGCTCTAATGGAAACTAAAGACATGTTGGAGATGGCTTGGGGTTTACGTA ATAGCAACCAACCTTTCTTATGGGTGATCCGACCGGGTTCTATTCCCGGCTCGGAATGGACA GAGTCTTTACCGGAGGAATTCAGTAGGTTGGTTTCAGAAAGAGGTTACATTGTGAAATGGGC ACCACAGATAGAAGTTCTCAGACATCCTGCAGTGGGAGGGTTTTGGAGTCACTGCGGATGGA ACTCGACCCTAGAGAGCATCGGGGAAGGAGTTCCGATGATCTGTAGGCCTTTTACGGGAGAT CAGAAAGTCAATGCGAGGTACTTAGAGAGAGTTTGGAGAATTGGGGTTCAATTGGAAGGAGA GCTGGATAAAGGAACAGTGGAGAGAGCTGTAGAGAGATTGATTATGGATGAAGAAGGAGCAG AAATGAGGAAGAGAGTTATCAACTTGAAAGAGAAGCTTCAAGCCTCTGTCAAGAGTAGAGGT TCCTCATTCAGCTCATTAGACAACTTTGTCAATTCCTTAAAAATGATGAATTTCATGTAG
>UGT76E11
ATGGAGGAAAAGCCGGCGGGCAGAAGAGTAGTGTTGGTTGCAGTTCCAGCTCAAGGACATAT CTCTCCAATAATGCAACTTGCAAAAACACTTCACTTGAAGGGTTTCTCAATCACAATCGCTC AGACAAAGTTCAATTACTTTAGCCCTTCAGATGACTTCACTGATTTTCAGTTTGTCACCATT CCAGAAAGCTTACCAGAGTCTGATTTTGAGGATCTCGGGCCAATAGAGTTTCTGCATAAGCT CAACAAAGAGTGTCAGGTGAGCTTCAAAGACTGTTTGGGTCAGTTGTTGBTGCAACAAGGTA ATGAGATAGCCTGTGTTGTCTACGACGAGTTCATGTACTTTGCTGAAGCTGCAGCCAAAGAG TTTAAGCTTCCAAΆCGTCATTTTCAGCACCACAAGTGCCACGGCTTTTGTTTGCCGCTCTGC ATTCGACAΆACTTTATGCAAACAGTATCCTGACTCCCTTGAAAGAACCCAAAGGACAACAAA ACGAGCTAGTGCCAGAGTTTCATCCCCTGAGATGCAAAGACTTTCCGGTTTCACATTGGGCA TCATTAGAAAGCATGATGGAGCTGTATAGGAATACAGTTGACAAACGGACAGCTTCCTCGGT GATAATCAACACAGCGAGCTGTCTAGAGAGCTCATCTCTGTCTCGTCTGCAGCAACAGCTAC AAATTCCAGTTTATCCTATAGGCCCTCTTCACCTGGTGGCATCAGCTTCTACGAGTCTTCTT GAAGAGAACAAGAGCTGTATTGAATGGTTGAACAAACAΆAAGAAAAACTCTGTGATATTCGT AAGCTTGGGAAGCTTAGCTTTGATGGAAATCAATGAGGTGATAGAAACTGCTTTGGGATTGG ATAGTAGCAAGCAACAGTTCTTGTGGGTCATTCGGCCAGGGTCAGTACGTGGTTCGGAATGG ATAGAGAACTTGCCTAAGGAGTTTAGTAAGATAATTTCGGGTCGAGGTTACATTGTGAAATG GGCTCCACAGAAGGAAGTACTTTCTCATCCTGCAGTAGGAGGATTTTGGAGCCATTGCGGAT GGAACTCGACACTAGAGAGCATCGGGGAAGGAGTTCCAATGATTTGCAAGCCGTTTTCCAGT GATCAAATGGTGAATGCGAGATACTTGGAGTGTGTATGGAAAATTGGGATTCAAGTTGAGGG TGATCTAGACAGAGGAGCGGTCGAGAGAGCTGTGAGGAGGTTAATGGTGGAGGAAGAAGGGG AGGGGATGAGGAAGAGAGCTATCAGTTTGAAAGAGCAACTTAGAGCCTCTGTTATAAGTGGA GGTTCTTCACACAACTCGCTAGAGGAGTTTGTACACTACATGAGGACTCTATGA
>UGT76E12
ATGGAGGAAAAGCCTGCAAGGAGAAGCGTAGTGTTGGTTCCATTTCCAGCACAAGGACATAT ATCTCCAATGATGCAACTTGCCAAAACCCTTCACTTAAAGGGTTTCTCGATCACAGTTGTTC AGACTAAGTTCAATTACTTTAGCCCTTCAGATGACTTCACTCATGATTTTCAGTTCGTCACC ATTCCAGAAAGCTTACCAGAGTCTGATTTCAAGAATCTCGGACCAATACAGTTTCTGTTTAA GCTCAACAAAGAGTGTAAGGTGAGCTTCAAGGACTGTTTGGGTCAGTTGGTGCTGCAΆCAΆA GTAATGAGATCTCATGTGTCATCTACGATGAGTTCATGTACTTTGCTGAAGCTGCAGCCAAA GAGTGTAAGCTTCCAAACATCATTTTCAGCACAACAAGTGCCACGGCTTTCGCTTGCCGCTC TGTATTTGACAAACTATATGCAAACAATGTCCAAGCTCCCTTGAAAGAAACTAAAGGACAAC AAGAAGAGCTAGTTCCGGAGTTTTATCCCTTGAGATATAAAGACTTTCCAGTTTCACGGTTT GCATCATTAGAGAGCATAATGGAGGTGTATAGGAATACAGTTGACAAΆCGGACAGCTTCCTC GGTGATAATCAACACTGCGAGCTGTCTAGAGAGCTCATCTCTGTCTTTTCTGCAACAACAAC AGCTACAAATTCCAGTGTATCCTATAGGCCCTCTTCACATGGTGGCCTCAGCTCCTACAAGT CTGCTTGAAGAGAΆCAAGAGCTGCATCGAATGGTTGAΆCAAACAΆAAGGTAAACTCGGTGAT ATACATAAGCATGGGAAGCATAGCTTTAATGGAΆATCAACGAGATAATGGAAGTCGCGTCAG GATTGGCTGCTAGCAACCAACACTTCTTATGGGTGATCCGACCAGGGTCAATACCTGGTTCC GAGTGGATAGAGTCCATGCCTGAAGAGTTTAGTAAGATGGTTTTGGACCGAGGTTACATTGT GAAATGGGCTCCACAGAAGGAAGTACTTTCTCATCCTGCAGTAGGAGGGTTTTGGAGCCATT GTGGATGGAACTCGACACTAGAAAGCATCGGCCAAGGAGTTCCAATGATCTGCAGGCCATTT TCGGGTGATCAΆAAGGTGAACGCTAGATACTTGGAGTGTGTATGGAAAΆTTGGGATTCAAGT GGAGGGTGAGCTAGACAGAGGAGTGGTCGAGAGAGCTGTGAAGAGGTTAATGGTTGACGAAG AAGGAGAGGAGATGAGGAAGAGAGCTTTCAGTTTAAAAGAGCAACTTAGAGCCTCTGTTAAA AGTGGAGGCTCTTCACACAACTCGCTAGAAGAGTTTGTACACTTCATAAGGACTCTATGA
>UGT76E2
ATGGAGGAAAAGCAAGTGAAGGAGACAAGGATAGTGTTGGTTCCAGTTCCAGCTCAAGGTCA TGTAACTCCGATGATGCAACTAGGAΆAAGCTCTTCACTCAAAGGGTTTCTCCATCACTGTTG TTCTGACACAGTCTAATCGAGTTAGCTCTTCCAAAGACTTCTCTGATTTCCATTTCCTCACC ATCCCAGGCAGCTTAACTGAGTCTGATCTCCAAAACCTAGGACCACAAAAGTTTGTGCTCAA GCTCAATCAAATTTGTGAGGCAAGCTTCAAGCAGTGTATAGGTCAACTATTGCATGAACAAT GTAATAATGATATTGCTTGTGTCGTCTACGATGAGTACATGTACTTCTCTCATGCTGCAGTA AAΆGAGTTTCAACTTCCTAGTGTCGTCTTTAGCACGACAAGTGCTACTGCTTTTGTCTGTCG CTCTGTTTTGTCTAGAGTCAΆCGCAGAGTCGTTCTTGATCGACATGAAAGATCCTGAAACAC AAGACAAAGTATTTCCAGGGTTGCATCCTCTGAGGTACAAGGATCTACCAACTTCAGTATTT GGGCCAATAGAGAGTACGCTCAAGGTTTACAGTGAGACTGTGAACACTCGAACAGCTTCCGC TGTTATCATCAACTCAGCAAGCTGTTTAGAGAGCTCATCTTTGGCAΆGGTTGCAACAACAAC TGCAAGTTCCGGTGTATCCTATAGGCCCACTTCATATTACAGCTTCAGCGCCTTCTAGTTTA CTAGAAGAAGACAGGAGTTGCGTTGAGTGGTTGAACAAGCAAΆAATCAAATTCAGTTATTTA CATAAGCTTGGGAAGCTTGGCTCTAATGGACACCAAAGACATGTTGGAGATGGCTTGGGGAT TAAGTAATAGCAACCAACCTTTCTTATGGGTGGTCAGACCGGGCTCTATTCCGGGGTCAGAA TGGACAGAGTCCTTACCAGAGGAATTCAATAGGTTGGTTTCAGAAAGAGGTTACATTGTGAA ATGGGCTCCGCAGATGGAAGTTCTCAGACATCCTGCAGTAGGAGGGTTTTGGAGTCACTGTG GATGGAACTCAACAGTAGAGAGCATCGGGGAAGGAGTTCCGATGATATGTAGGCCTTTCACC GGGGATCAGAAAGTCAATGCGAGGTACTTAGAGAGAGTTTGGAGAATTGGGGTTCAATTGGA GGGAGATCTGGATAAAGAAACTGTGGAGAGAGCTGTAGAGTGGTTGCTTGTGGATGAAGAAG GAGCAGAAATGAGGAAGAGAGCCATTGACTTGAAAGAAAAGATTGAAACCTCTGTTAGAAGT GGAGGTTCCTCATGCAGCTCACTAGACGACTTTGTTAATTCCATGTGA
>UGT76E3
ATGGAGAAAAGAGTAGAGAAGAGAAGGATAGTGTTGGTTCCACTTCCATTACTAGGACATTT CACTCCGATGATGCAACTCGGCCAAGCCCTTATCTTGAAGGGATTCTCAATTATAGTTCCTC AGGGAGAATTCAATCGAGTAAACTCTTCGCAGAAGTTCCCTGGTTTTCAATTTATCACCATA CCAGATTCTGAACTCGAGGCAAATGGACCAGTCGGGTCTCTAACACAGCTCAACAAAΆTTAT GGAGGCAAGCTTCAAGGACTGTATAAGGCAGTTGTTGAAACAACAAGGCAATGATATTGCAT GTATCATCTACGACGAGTTCATGTATTTTTGTGGAGCCGTAGCTGAGGAGTTGAAGCTTCCC AATTTCATCTTCAGTACTCAAACTGCTACACATAΆAGTTTGCTGCAΆTGTTTTAAGCAAACT TAATGCCAAGAAGTACTTGATCGACATGGAAGAGCATGACGTGCAAΆACAAGGTAGTGGAAA ATATGCATCCATTAAGATACAAAGACTTACCAACTGCAACATTTGGAGAACTAGAACCTTTT TTGGAGCTCTGTAGAGATGTAGTCAACAAAAGAACAGCCTCTGCTGTTATCATCAACACCGT GACCTGTCTAGAGAGCTCGTCTCTCACAAGGCTGCAACAAGAACTCCAAATTCCGGTGTATC CATTAGGCCCTCTTCACATTACAGATTCATCGACAGGATTTACTGTGCTGCAAGAGGATAGG AGCTGCGTTGAATGGCTGAACAAGCAGAAACCAAGGTCTGTCATATACATAAGTTTAGGAAG CATGGTTCTCATGGAAACCAAGGAGATGTTAGAGATGGCTTGGGGAATGTTGAATAGCAACC AACCTTTCTTATGGGTCATCCGACCTGGATCTGTCTCAGGCTCCGAGGGGATAGAGTCATTG CCAGAGGAAGTCAGTAAGATGGTTTTAGAGAAAGGATACATTGTGAAATGGGCACCACAAAT AGAAGTACTAGGACATCCCTCAGTGGGAGGCTTTTGGAGCCACTGTGGATGGAACTCAACAC TCGAGAGCATTGTGGAAGGAGTTCCAATGATTTGCAGGCCTTATCAAGGCGAGCAGATGTTA AATGCAATATATCTAGAGAGTGTATGGAGAATAGGGATTCAGGTAGGAGGTGAACTGGAAAG AGGAGCCGTCGAGAGAGCTGTGAAGAGGTTGATTGTGGATAAAGAAGGTGCAAGCATGAGGG AGAGAACCCTTGTTTTAAΆAGAGAAGCTCAAΆGCCTCTATTAGAGGTGGAGGCTCCTCATGC AATGCATTAGATGAGCTTGTCAAGCACTTGAAGACAGAGTGA
>UGT76E4
ATGGAGAAAAGGGTAGAGAAGAGAAGGATTGTGTTAGTTCCGGTTGCTGCACAAGGACATGT AACCCCAATGATGCAGCTTGGGAΆAGCCCTTCAATCAΆAGGGCTTCTTAΆTTACTGTTGCTC AGAGACAGTTCAATCAAATAGGCTCATCATTGCAACACTTTCCTGGTTTTGACTTTGTCACC ATACCAGAAAGCTTACCTCAGTCTGAATCTAAGAAACTAGGACCAGCTGAGTATCTTATGAA TCTCAACAAAACAAGCGAGGCAAGCTTCAAGGAGTGTATAAGTCAGTTATCGATGCAACAAG GCAATGATATAGCATGTATCATCTATGACAAGCTTATGTACTTCTGTGAAGCAGCAGCTAAG GAGTTTAAGATTCCTAGTGTTATCTTCAGCACTAGCAGTGCTACAATTCAAGTTTGCTACTG TGTTTTAAGTGAACTCAGTGCCGAGAAGTTCTTGATCGACATGAAAGATCCTGAAAAGCAAG ATAAGGTGTTGGAAGGTTTGCATCCTTTAAGGTACAAAGACCTACCAACTTCAGGATTTGGA CCATTAGAGCCACTTTTGGAGATGTGTAGGGAAGTAGTTAACAAΆAGAACAGCTTCCGCTGT TATCATCAACACGGCGAGCTGTCTAGAGAGCTTGTCTCTGTCATGGCTGCAACAAGAACTTG GAATTCCAGTGTATCCATTAGGCCCTCTTCACATTACAGCTTCATCGCCGGGACCTAGTTTA CTGCAAGAGGACATGAGCTGCATTGAATGGCTGAACAAGCAGAAACCAAGGTCAGTCATATA CATAAGCTTGGGAACCAAAGCTCACATGGAGACCAAGGAGATGTTAGAGATGGCCTGGGGAT TGTTGAATAGCAACCAACCTTTCTTATGGGTCATCCGACCTGGCTCTGTTGCAGGCTTCGAG TGGATAGAGTTATTACCAGAGGAAGTCATTAAGATGGTAACAGAAAGAGGATACATAGCGAA ATGGGCACCGCAGATAGAAGTACTTGGACATCCTGCAGTGGGAGGATTCTGGAGCCACTGTG GATGGAACTCAACACTCGAGAGTATTGTGGAAGGAGTCCCAATGATTTGCAGGCCTTTACAA GGCGAACAAAAGTTAAATGCGATGTATATAGAAAGTGTTTGGAAAATAGGGATTCAACTTGA AGGTGAAGTGGAAAGGGAAGGTGTAGAGAGAGCTGTGAAGAGGTTGATCATAGATGAAGAAG GTGCAGCCATGAGGGAGAGGGCTCTTGATTTAAAAGAGAAGCTCAATGCCTCGGTAAGAAGT GGAGGCTCCTCATACAACGCACTGGATGAGCTTGTCAAGTTCTTGAATACAGAGTGA
>UGT76E5
ATGGAGAAAAATGCAGAGAAGAAAAGAATAGTGTTGGTTCCATTTCCATTACAAGGACATAT CACTCCAATGATGCAACTTGGTCAAGCACTTAACCTGAAAGGCTTCTCGATTACCGTTGCTC TTGGAGATTCCAATCGAGTAAGTTCTACGCAACACTTCCCTGGTTTTCAATTTGTCACAATA CCTGAAACCATACCACTATCTCAACACGAGGCACTCGGAGTTGTCGAGTTTGTGGTTACGCT CAACAAAACAAGCGAGACAAGTTTCAAGGACTGTATAGCTCATTTGTTGCTGCAACATGGAA ATGATATTGCTTGTATCATTTACGACGAGCTCATGTACTTCTCTGAAGCTACAGCTAAGGAT TTAAGGATTCCTAGTGTCATATTCACCACTGGTAGTGCTACAAATCATGTTTGTTCTTGTAT TTTAAGCAAACTCAACGCCGAGAAGTTCTTGATCGACATGAAAGATCCTGAAGTGCAAAACA TGGTGGTGGAAAATTTACATCCACTAAAATACAAAGACTTACCAACTTCAGGAATGGGGCCG CTAGAGCGATTTTTGGAGATTTGTGCCGAAGTTGTCAACAAAAGAACAGCTTCCGCTGTTAT AATCAATACGTCAAGTTGTCTAGAGAGCTCGTCTCTGTCATGGCTGAAACAAGAACTCAGTA TTCCAGTGTATCCATTAGGCCCTCTTCACATTACAACTTCAGCAAATTTTAGTTTACTTGAA GAGGACAGGAGCTGCATTGAATGGCTGAACAAGCAGAAACTGAGGTCAGTTATATACATAAG CGTAGGAAGCATAGCTCACATGGAAACCAAGGAAGTATTGGAGATGGCTTGGGGATTGTATA ATAGCAACCAACCTTTTCTATGGGTAATCCGACCCGGTACAGAGTCAATGCCAGTGGAAGTC AGTAAGATTGTCTCGGAAAGAGGATGCATTGTGAAATGGGCGCCACAGAATGAAGTACTTGT GCATCCTGCAGTGGGAGGTTTCTGGAGCCACTGTGGATGGAACTCAACACTCGAGAGTATTG TGGAAGGAGTTCCAATGATTTGCAGACCGTTTAACGGTGAGCAGAAGTTAAACGCGATGTAT ATAGAΆAGTGTTTGGAGAGTAGGGGTTCTGCTTCAAGGAGAAGTGGAGAGAGGATGTGTAGA GAGAGCTGTGAAGAGGTTGATTGTGGATGATGAAGGTGTAGGAATGAGGGAGAGAGCCCTTG TTTTAAAAGAGAAGCTCAATGCCTCTGTAAGAAGTGGAGGCTCTTCATACAATGCATTGGAT GAGCTCGTCCATTACTTGGAGGCAGAGTATAGAAATACTTGA
>UGT76E6
ATGGAGAAAATGGAAGAGAAGAAAAGGATAGTGTTAGTTCCGGTTCCAGCACAAAGACATGT
AACTCCAATGATGCAGCTTGGCACAGCCCTAAACATGAAGGGCTTCTCTATTACTGTTGTTG
AAGGACAGTTCAATAAAGTAAGCTCATCTCAAAACTTTCCTGGTTTTCAATTTGTAACCATA
CCAGATACAGAGAGCTTGCCAGAGTCTGTGCTCGAGAGACTCGGACCGGTCGAGTTTTTATT
CGAGATCAACAAAACCAGTGAGGCAAGCTTCAAGGACTGTATAAGGCAGTCGTTGCTGCAAC
AAGGCAATGATATAGCATGTATCATCTACGACGAGTATATGTACTTCTGTGGAGCTGCAGCT
AAGGAGTTCAACCTTCCTAGTGTAATATTCAGCACACAAAGTGCTACTAATCAAGTTTCCCG
TTGCGTTTTAAGAAAACTCAGTGCCGAGAAGTTCTTGGTGGACATGGAAGGTATCCTGAAGT
GCAGGAAACGTTGGTGGAAAATTTGCATCCATTAAGATACAAAGACCTACCAACTTCAGGAG
TTGGGCCACTAGATCGATTATTTGAGCTCTGTAGGGAAATAGTCAACAAAAGAACAGCTTCC
GCTGTTATCATCAACACAGTGAGATGTCTAGAGAGCTCGTCTCTGAAACGTCTGCAACATGA ACTCGGGATTCCGGTGTACGCATTAGGCCCTCTTCACATTACAGTTTCAGCAGCTTCTAGTT TACTGGAΆGAGGACAGGAGCTGCGTTGAΆTGGTTGAACAAGCAAAΆACCGAGGTCAGTCGTT TACATAAGCTTGGGGAGCGTAGTTCAAATGGAAACCAAAGAAGTGTTAGAGATGGCTCGGGG TTTATTTAATAGCAACCAGCCTTTCTTATGGGTCATTCGGCCTGGCTCTATCGCAGGCTCCG AATGGATAGAGTCACTGCCAGAGGAAGTCATTAAGATGGTCTCCGAAAGAGGGTATATTGTG AAATGGGCACCACAGATAGAAGTACTTGGACATCCTGCAGTGGGAGGATTCTGGAGCCACTG TGGATGGAACTCAACGCTTGAAAGCATTGTGGAAGGAGTTCCAATGATATGCAGGCCCTTTC ATGGCGAGCAAAAGTTAAACGCACTGTGTTTAGAGAGTATTTGGAGAATAGGGTTTCAGGTG CAAGGTAAGGTAGAGAGGGGAGGGGTCGAGAGAGCTGTGAAGAGGTTGATAGTGGATGAAGA AGGTGCAGACATGAGAGAGAGAGCCCTTGTTTTAAAAGAGAATCTCAAAGCCTCTGTAAGAA ATGGAGGCTCCTCATACAACGCATTGGAGGAGATCGTTAACCTCATGTAG
>UGT76E7
ATGGAGGAGAAGCTCTCGAGGAGAAGAAGAGTAGTGTTGGTTCCAGTTCCAGCTCAAGGACA TATAACTCCAATGATACAACTTGCAAAAGCACTTCACTCAAAAGGCTTCTCTATTACAGTTG TTCAAACCAAGTTCAACTACTTAAΆCCCTTCAAATGATTTGTCTGATTTTCAGTTTGTAACC ATCCCAGAGAACTTACCAGTGTCTGATCTTAΆGAATCTAGGACCAGGACGGTTTCTGATTAA GCTAGCTAATGAGTGTTATGTTAGCTTTAAGGATTTGTTAGGTCAGTTGTTGGTTAΆTGAAG AAGAAGAGATCGCTTGTGTTATCTACGACGAGTTCATGTACTTTGTTGAAGTAGCAGTTAAA GAGTTTAAGCTTCGTAATGTTATTTTAAGTACTACAAGTGCAACGGCTTTTGTTTGTCGCTT TGTTATGTGTGAACTCTATGCTAAAGATGGTTTGGCTCAACTTAAAGAAGGCGGTGAGCGAG AAGTGGAGTTAGTACCGGAGTTGTATCCTATACGGTACAAAGATTTACCAAGTTCGGTATTT GCATCTGTAGAATCTTCAGTGGAGTTGTTTAAGAATACATGTTATAAAGGGACAGCTTCCTC TGTGATAATCAACACAGTGAGGTGTCTAGAGATGTCATCTTTGGAGTGGCTTCAACAAGAAC TTGAAATCCCGGTGTATTCTATAGGCCCGCTTCATATGGTGGTGTCAGCTCCTCCTACGAGT CTTTTAGAAGAGAΆCGAGAGCTGTATAGAATGGTTGAACAAACAAAAGCCGAGCTCGGTGAT ATACATAAGCTTGGGAAGTTTTACTTTGATGGAAACTAAAGAAATGTTGGAGATGGCTTATG GGTTTGTTAGTAGTAACCAACACTTCTTGTGGGTGATTCGACCGGGATCTATATGTGGTTCT GAAATCTCTGAGGAAGAGTTGTTGAAGAAGATGGTAATTACGGATCGAGGTTACATTGTGAA ATGGGCGCCGCAAAAACAAGTGCTTGCACATTCTGCGGTTGGAGCGTTCTGGAGTCATTGTG GATGGAACTCGACTTTAGAAAGTCTTGGTGAAGGAGTTCCATTGATATGTAGGCCTTTTACT ACTGATCAAAAGGGGAATGCAAGGTACTTGGAGTGTGTGTGGAAAGTAGGAATTCAAGTGGA GGGTGAGCTAGAGAGAGGCGCAATCGAGAGAGCTGTGAAGAGGTTAATGGTGGATGAAGAAG GAGAΆGAGATGAAGAGAAGAGCTCTAAGTTTAAAΆGAGAAACTCAAAGCCTCTGTTTTAGCT CAAGGTTCTTCACATAAATCACTAGATGACTTCATCAAGACTCTGTGA
>UGT76E9
ATGGAGGAAAAGCAAGAGAGGAGGAGAAGGATCGTGTTGATTCCCGCTCCAGCACAAGGACA CATATCTCCGATGATGCAACTTGCAAGAGCCCTTCACTTAAAGGGCTTCTCCATTACAGTTG CTCAAACCAAGTTCAATTACTTGAAGCCTTCAAAAGACTTAGCTGATTTTCAGTTTATCACC ATCCCAGAGAGCTTACCAGCCTCGGATCTTAAGAATCTAGGACCAGTTTGGTTTCTTCTTAΆ ACTCAATAAAGAGTGTGAGTTTAGCTTCAAGGAGTGTTTAGGTCAATTGTTGCTGCAAAAAC AACTTATACCGGAAGAAGAGATCGCTTGTGTCATCTACGACGAGTTCATGTACTTTGCTGAA GCTGCAGCCAAAGAGTTTAACCTTCCCAAAGTTATTTTCAGTACCGAAAATGCGACGGCTTT TGCTTGTCGCTCTGCCATGTGCAAACTCTATGCAAAAGATGGTTTGGCTCCCCTTAAAGAAG GATGTGGGCGAGAAGAGGAGCTAGTGCCAAAGTTGCATCCCCTTAGATACAAAGACCTACCA ACTTCAGCATTTGCACCAGTAGAAGCCTCAGTGGAAGTGTTTAAAAGTTCATGTGATAAAGG GACAGCTTCCGCTATGATAATCAΆCACAGTGAGGTGTCTAGAGATATCATCCTTGGAGTGGC TTCAACAAGAACTTAAGATTCCGATATATCCTATAGGCCCTCTTCACATGGTTTCTTCAGCT CCTCCTACGAGTCTACTAGACGAGAATGAGAGTTGCATTGATTGGCTGAACAAACAAAAGCC GAGCTCGGTGATTTACATAAGTTTGGGAAGCTTTACTTTGTTGGAAΆCTAAAGAAGTGTTGG AAATGGCTTCGGGCTTGGTTAGTAGTAACCAACACTTCTTGTGGGTGATTCGACCCGGGTCC ATACTTGGTTCTGAATTGACTAATGAGGAATTATTGAGTATGATGGAAATACCGGATCGAGG CTACATTGTGAAATGGGCTCCACAAAAGCAAGTGCTTGCACATTCTGCGGTTGGAGCATTTT GGAGTCATTGTGGATGGAACTCGACTCTAGAGAGCATGGGTGAAGGAGTTCCGATGATTTGT AGGCCTTTTACTACTGATCAAAAGGTAAATGCGCGGTATGTGGAGTGTGTCTGGAGAGTTGG GGTTCAAGTGGAGGGTGAAGTAAAGAGAGGAGTAGTCGAGAGAGCTGTGAAGAGGTTACTGG TGGATGAAGAAGGAGAAGAGATGAAGTTGAGAGCTCTCAGTTTGAAAGAGAAACTCAAAGTT TCTGTTCTACCGGGAGGTTCTTCACACAGTTCACTAGATGACTTAATCAAGACTCTATGA
>UGT76F1
ATGGAAGAGAGAAAAGTGAAGAGAATTATCATGTTCCCTCTACCGTTTACAGGACACTTCAA CCCTATGATCGAGCTTGCTGGAATATTCCACAACCGTGGCTTCTCCGTCACGATACTCCACA CTTCTTTCAACTTCCCGGATCCTTCTCGCCATCCACAGTTTACTTTTCGAACTATCACTCAC AAAAACGAAGGAGAAGAAGACCCTCTCTCTCAATCAGAAACTTCTTCGGGTAAGGACCTCGT CGTCCTTATTAGTCTGCTGAAACAATACTACACCGAGCCGTCTCTTGCAGAGGAAGTAGGCG AAGGAGGGACGGTGTGTTGTTTGGTCTCCGACGCTCTATGGGGGAGGAACACGGAGATTGTA GCGAAAGAGATTGGAGTGTGTACAATGGTGATGAGGACTAGTGGTGCGGCAACGTTTTGTGC TTATACAGCTTTCCCTCTCCTTATAGATAAGGGTTACCTTCCTATACAAGGTTCTAGATTAG ATGAGCTAGTGACAGAGCTTCCACCTTTGAAAGTGAAGGATCTTCCTGTAATAAAAACGAAA GAGCCTGAGGGACTAAACCGAATACTTAACGACATGGTGGAAGGAGCCAAGTTATCTTCCGG AGTCGTATGGAACACATTTGAΆGATCTTGAAAGACATTCACTCATGGATTGTCGCAGCAAGT TACAAGTTCCGTTGTTCCCAATCGGACCGTTTCACAAACATAGAACCGATCTTCCACCGAAG CCAAAGAACAAGGACAAGGACGATGATGAΆATATTAACCGATTGGCTTAACAAGCAAGCTCC GCAGTCTGTGGTCTATGTGAGTTTTGGAAGCCTTGCAGCTATAGAAGAGAATGAGTTTTTCG AAATTGCTTGGGGTCTAAGAAACAGCGAACTACCATTCTTGTGGGTGGTTAGGCCCGGGATG GTCCGGGGAACCGAGTGGCTTGAGTCATTGCCTTGTGGGTTTTTGGAAAATATTGGTCATCA GGGAAAAATTGTGAAATGGGTGAATCAACTAGAGACATTGGCCGATCCTGCGGTTGGAGCGT TTTGGACGCACTGTGGATGGAACTCAACAATAGAGAGCATATGTGAAGGTGTTCCAATGATA TGTACGCCGTGTTTCTCGGACCAGCATGTGAACGCGAGGTACATCGTTGATGTATGGCGAGT CGGGATGATGTTAGAGAGATGTAAGATGGAAAGGACGGAGATTGAGAAGGTAGTAACAAGTG TAATGATGGAGAATGGAGCTGGATTGACAGAGATGTGTTTGGAGTTGAAAGAGAAAGCTAAT GTTTGCTTAAGTGAAGATGGGTCTTCTTCCAAGTATCTAGACAAACTTGTCAGTCATGTCCT GTCTTTTGATTCCTCGGCTTTTGCAAGTTAA
>UGT76F2
ATGGAAGAGAGAAAAGGGAGGAGAATAATCATGTTCCCTCTTCCATTTCCAGGGCACTTCAA CCCCATGATCGAGCTCGCTGGAATATTCCACCACCGTGGCTTCTCCGTGACGATCCTCCACA CTTCCTACAACTTCCCCGATCCTTCTCGCCACCCACACTTCACTTTTCGAACCATCTCTCAC AACAAAGAAGGAGAAGAAGATCCTCTGTCTCAGTCAGAAACTTCGAGTATGGACCTAATCGT TCTCGTTCGTCGGCTGAAACAACGCTACGCCGAACCGTTTCGTAAGTCTGTGGCGGCGGAAG TAGGTGGAGGAGAGACGGTGTGTTGTTTGGTCTCCGACGCTATATGGGGGAAGAACACGGAG GTTGTAGCGGAAGAGATTGGAGTTCGTAGGGTGGTGTTGAGGACAGGTGGTGCGTCGTCGTT TTGTGCTTTTGCCGCTTTCCCTCTCCTTAGGGATAAGGGTTACCTCCCTATACAAGATTCTA GATTAGATGAGCCAGTGACAGAGCTTCCACCTTTGAAAGTGAAGGATCTTCCGGTAATGGAA ACGAATGAGCCGGAGGAACTTTACCGGGTAGTTAACGACATGGTGGAAGGAGCCAAGTCTTC TTCAGGAGTCATATGGAACACATTTGAAGATCTTGAAAGACTATCACTTATGAATTGTAGCA GCAAATTACAAGTTCCATTTTTCCCGATCGGACCGTTTCACAAATATAGCGAAGATCCTACA CCGAAGACAGAGAACAAGGAAGATACCGATTGGCTCGACAAGCAAGACCCACAGTCGGTGGT CTATGCGAGTTTCGGAΆGCCTTGCAGCTATAGAAGAGAΆGGAGTTTCTCGAGATTGCTTGGG GTCTAAGAAACAGTGAACGACCGTTTTTGTGGGTGGTTAGGCCGGGGTCTGTCAGGGGGACC GAGTGGCTCGAGTCATTGCCTTTAGGGTTTATGGAAAACATTGGAGATAAGGGAAAAATCGT GAAATGGGCGAATCAGTTAGAGGTATTGGCGCATCCTGCCATTGGAGCGTTTTGGACACATT GTGGATGGAACTCGACACTAGAGAGCATATGTGAAGGTGTTCCTATGATATGTACGTCATGT TTCACGGACCAGCATGTGAACGCGAGATACATCGTTGATGTATGGCGAGTCGGGATGTTGTT AGAGAGAAGTAAGATGGAAAAGAAGGAGATTGAAAAGGTGCTAAGAAGTGTAATGATGGAGA AGGGAGATGGATTGAGGGAAAGGAGTTTGAAGTTGAAAGAGAGAGCTGATTTTTGCTTAAGT AAAGATGGGTCTTCTTCCAAGTATTTAGACAAACTTGTGAGTCATGTCCTGTCTTTTGATTC TTATGCTTTTGCAAGTTAA
>UGT78D1 ATGACCAAATTCTCCGAGCCAATCAGAGACTCCCACGTGGCAGTTCTCGCGTTTTTCCCCGT TGGCGCTCATGCCGGTCCTCTCTTAGCCGTCACTCGCCGTCTCGCCGCCGCTTCTCCCTCCA CCATCTTTTCTTTCTTCAACACCGCAAGATCAAACGCGTCGTTGTTCTCCTCTGATCATCCC GAGAACATCAAGGTCCACGACGTCTCTGACGGTGTTCCGGAGGGAACCATGCTCGGGAATCC ACTGGAGATGGTCGAGCTGTTTCTCGAAGCGGCTCCACGTATTTTCCGGAGCGAAATCGCGG CGGCAGAGATAGAAGTTGGAAAGAAAGTGACATGCATGCTAACAGATGCCTTCTTCTGGTTC GCAGCGGACATAGCGGCTGAGCTGAACGCGACTTGGGTTGCCTTCTGGGCCGGCGGAGCAAA CTCACTCTGTGCTCATCTCTACACTGATCTCATCAGAGAAACCATCGGTCTCAAAGATGTGA GTATGGAAGAGACATTAGGGTTTATACCAGGAATGGAGAATTACAGAGTTAAAGATATACCA GAGGAAGTTGTATTTGAAGATTTGGACTCTGTTTTCCCAAAGGCTTTATACCAAATGAGTCT TGCTTTACCTCGTGCCTCTGCTGTTTTCATCAGTTCCTTTGAAGAGTTAGAACCTACATTGA ACTATAACCTAAGATCCAAACTTAAACGTTTCTTGAACATCGCCCCTCTCACGTTATTATCT TCTACATCGGAGAAAGAGATGCGTGATCCTCATGGCTGCTTTGCTTGGATGGGGAAGAGATC AGCTGCTTCTGTAGCGTACATTAGCTTCGGCACCGTCATGGAACCTCCTCCTGAAGAGCTTG TGGCGATAGCACAAGGGTTGGAATCAAGCAAAGTGCCGTTTGTTTGGTCGCTGAAGGAGAAG AACATGGTTCATCTACCAAAAGGGTTTTTGGATCGGACAAGAGAGCAAGGGATAGTGGTTCC TTGGGCTCCACAAGTGGAACTGCTGAAACACGAGGCAATGGGTGTGAATGTGACACATTGTG GATGGAACTCAGTGTTGGAGAGTGTGTCGGCAGGTGTACCGATGATCGGCAGACCGATTTTG GCGGATAATAGGCTCAACGGAAGAGCAGTGGAGGTTGTGTGGAAGGTTGGAGTGATGATGGA TAATGGAGTCTTCACGAAAGAAGGATTTGAGAAGTGTTTGAATGATGTTTTTGTTCATGATG ATGGTAAGACGATGAAGGCTAATGCCAAGAAGCTTAAAGAAAAACTCCAAGAAGATTTCTCC ATGAAAGGAAGCTCTTTAGAGΆATTTCAAAATATTGTTGGACGAAATTGTGAAAGTTTAG
>UGT78D2
ATGACCAAACCCTCCGACCCAACCAGAGACTCCCACGTGGCAGTTCTCGCTTTTCCTTTCGG CACTCATGCAGCTCCTCTCCTCACCGTCACGCGCCGCCTCGCCTCCGCCTCTCCTTCCACCG TCTTCTCTTTCTTCAACACCGCACAATCCAACTCTTCGTTATTTTCCTCCGGTGACGAAGCA GATCGTCCGGCGAACATCAGAGTATACGATATTGCCGACGGTGTTCCGGAGGGATACGTGTT TAGCGGGAGACCACAGGAGGCGATCGAGCTGTTTCTTCAAGCTGCGCCGGAGAATTTCCGGA GAGAAATCGCGAAGGCGGAGACGGAGGTTGGTACGGAAGTGAAATGTTTGATGACTGATGCG TTCTTCTGGTTCGCGGCTGATATGGCGACGGAGATAAATGCGTCGTGGATTGCGTTTTGGAC CGCCGGAGCAAACTCACTCTCTGCTCATCTCTACACAGATCTCATCAGAGAAACCATCGGTG TCAAAGAAGTAGGTGAGCGTATGGAGGAGACAATAGGGGTTATCTCAGGAATGGAGAAGATC AGAGTCAAAGATACACCAGAAGGAGTTGTGTTTGGGAATTTAGACTCTGTTTTCTCAAAGAT GCTTCATCAAATGGGTCTTGCTTTGCCTCGTGCCACTGCTGTTTTCATCAΆTTCTTTTGAAG ATTTGGATCCTACATTGACGAATAACCTCAGATCGAGATTTAAACGATATCTGAACATCGGT CCTCTCGGGTTATTATCTTCTACATTGCAACAACTAGTGCAAGATCCTCACGGTTGTTTGGC TTGGATGGAGAAGAGATCTTCTGGTTCTGTGGCGTACATTAGCTTTGGTACGGTCATGACAC CGCCTCCTGGAGAGCTTGCGGCGATAGCAGAAGGGTTGGAATCGAGTAAAGTGCCGTTTGTT TGGTCGCTTAAGGAGAAGAGCTTGGTTCAGTTACCAAAAGGGTTTTTGGATAGGACAAGAGA GCAAGGGATAGTGGTTCCATGGGCACCGCAAGTGGAACTGCTGAAACACGAAGCAACGGGTG TGTTTGTGACGCATTGTGGATGGAACTCGGTGTTGGAGAGTGTATCGGGTGGTGTACCGATG ATTTGCAGGCCATTTTTTGGGGATCAGAGATTGAACGGAAGAGCGGTGGAGGTTGTGTGGGA GATTGGAATGACGATTATCAATGGAGTCTTCACGAAAGATGGGTTTGAGAAGTGTTTGGATA AAGTTTTAGTTCAAGATGATGGTAAGAAGATGAAATGTAATGCTAAGAAACTTAAAGAACTA GCTTACGAAGCTGTCTCTTCTAAAGGAAGGTCCTCTGAGAATTTCAGAGGATTGTTGGATGC AGTTGTAAACATTATTTGA
>UGT78D3
ATGGCCAAACCCTCGCAGCCAACGCGAGACTCCCACGTGGCAGTTCTCGTTTTCCCCTTCGG
CACTCATGCAGCTCCTCTCCTCGCCGTCACGTGCCGTCTCGCCACCGCTGCTCCCTCCACCG
TCTTCTCCTTCTTCAGCACCGCACGATCCAACTCGTCGTTACTCTCCTCCGATATCCCCACA
AACATTCGTGTCCACAACGTCGATGACGGTGTTCCTGAGGGATTCGTGTTGACGGGGAATCC
ACAGCACGCTGTTGAGCTGTTTCTTGAAGCGGCGCCAGAGATTTTCCGAAGAGAAATCAAGG
CGGCCGAGACCGAAGTTGGTAGGAAGTTCAAGTGCATCCTTACGGATGCGTTCCTCTGGTTA
GCAGCGGAGACGGCGGCTGCGGAGATGAAAGCGTCGTGGGTTGCGTACTATGGAGGCGGAGC AACCTCGCTCACTGCTCATCTCTACACAGATGCCATCAGAGAAAACGTCGGTGTCAAAAGTA GGTGAGCGTATGGAGGAGACAATAGGGTTTATCTCAGGAATGGAGAAGATCAGAGTCAAAGA CACACAAGAAGGCGTTGTGTTTGGGAACTTAGACTCTGTTTTCTCTAAAACGTTGCACCAAA TGGGTCTTGCTTTACCTCGTGCCACTGCTGTTTTCATCAATTCCTTTGAAGAATTGGATCCT ACGTTTACAAATGATTTCAGATCGGAATTCAAACGTTACCTAAACATCGGTCCTCTCGCTTT ATTATCTTCTCCATCGCAAACATCAACGCTAGTGCACGATCCTCACGGTTGCTTGGCTTGGA TCGAGAAGCGGTCCACTGCTTCTGTAGCGTACATTGCCTTTGGTAGAGTCGCGACACCGCCT CCTGTAGAGCTTGTGGCGATAGCACAAGGATTGGAATCGAGTAAAGTGCCTTTTGTTTGGTC GCTACAAGAGATGAAAATGACTCATTTACCAGAAGGCTTTTTGGATCGGACCAGAGAGCAAG GGATGGTGGTTCCATGGGCACCACAAGTGGAGCTGCTAAACCATGAAGCAATGGGTGTGTTT GTTTCGCATGGTGGGTGGAΆCTCAGTGTTGGAGAGTGTGTCGGCAGGTGTACCGATGATTTG TAGACCGATTTTCGGGGATCATGCAATCAATGCAAGATCTGTGGAΆGCTGTGTGGGAGATCG GAGTGACGATTAGTAGTGGAGTCTTCACGAAGGATGGATTTGAGGAGAGTTTGGATCGGGTT TTGGTTCAAGATGATGGCAΆGAAGATGAAGGTTAATGCTAAAAAGCTTGAAGAΆCTAGCACA AGAAGCTGTCTCTACCAAAGGAAGCTCCTTTGAGAATTTTGGAGGATTGTTGGACGAAGTTG TGAACTTTGGATAA
>UGT79B1 ATGGGTGTTTTTGGATCGAATGAATCGTCAAGCATGAGTATTGTGATGTAT1CCGTGGTTAGC
CTTTGGTCACATGACTCCTTTTCTTCACCTATCCAACAAGCTCGCAGAGAAAGGTCACAAGA RPTGTTTTCTTQCTTCCCAAGAAAGCACTAAACCAGCTTGAACCTCTTAATCTCTACCCAAAT CTCATCACTTTCCACACCATCTCTATCCCTCAGGTCAAAGGGCTCCCTCCGGGTGCGGAGAC AAACTCCGACGTCCCTTTCTTCTTGACACATTTGCTTGCAGTTGCAATGGACCAAACCCGGC CAGAGGTCGAGACCATTTTCCGTACAATCAAACCGGACTTGGTTTTCTATGATTCTGCCCAT TGGATACCGGAAATTGCTAAACCGATCGGTGCTAAAACCGTTTGCTTCAACATCGTTAGCGC TGCGTCAATCGCACTGTCTCTTGTCCCTTCTGCGGAGAGAGAGGTCATTGATGGCAAGGAAA TGTCAGGGGAGGAGTTAGCTAAGACGCCTCTAGGTTACCCATCTTCGAAAGTAGTCTTACGT CCGCACGAAGCAAAATCCCTGAGTTTCGTGTGGAGGAAGCACGAGGCGATTGGCTCTTTCTT TGATGGGAAΆGTTACCGCGATGAGAΆACTGCGACGCAATCGCTATAAGGACTTGCCGTGAGA CAGAAGGCAAATTCTGCGATTACATAAGTAGGCAGTACAGTAAACCGGTTTACCTAACAGGA CCGGTTCTCCCTGGATCCCAACCTAATCAGCCCTCCTTAGATCCTCAATGGGCGGAGTGGCT AGCCAAATTCAACCACGGTTCGGTTGTGTTCTGCGCTTTCGGTAGCCAACCCGTTGTAAACA AGATAGATCAGTTTCAΆGAACTCTGTTTAGGTCTAGAATCAACTGGTTTTCCGTTTCTGGTT GCCATTAAGCCTCCTTCGGGTGTATCAACCGTCGAGGAAGCCTTACCGGAAGGATTCAAAGA GAGGGTTCAAGGACGTGGCGTTGTGTTTGGAGGTTGGATTCAGCAACCGTTGGTGTTGAACC ATCCTTCAGTGGGTTGTTTTGTTAGCCATTGCGGGTTTGGGTCGATGTGGGAGTCGTTGATG AGTGATTGTCAGATCGTTTTGGTTCCGCAGCACGGAGAACAGATTTTGAACGCAAGGCTGAT GACGGAGGAGATGGAGGTGGCGGTTGAAGTGGAGAGGGAAAAGAAAGGGTGGTTCTCGCGGC AAAGCTTGGAGAATGCTGTGAAGAGTGTGATGGAGGAAGGTAGTGAGATCGGTGAGAAAGTG AGGAAGAATCATGACAAGTGGAGATGTGTTTTGACTGACTCTGGTTTTTCAGATGGTTATAT TGATAAGTTTGAACAAAATTTAATTGAACTTGTGAAGTCATGA
>UGT79B10
ATGGGCCAAACGTTTCACGCCTTTATGTTCCCATGGTTCGCTTTTGGTCATATGACTCCATA CTTGCATTTAGCCAACAAGTTAGCTGAGAGAGGTCACAGAATCACTTTCTTGATCCCCAAGA AAGCTCAGAAGCAGCTTGAACATCTCAATCTGTTTCCAGACAGCATCGTCTTTCACTCTCTT ACTATTCCTCATGTTGATGGTCTCCCCGCTGGAGCCGAGACTTTCTCGGATATCCCTATGCC ATTGTGGAAGTTCTTGCCCCCAGCTATAGATCTCACACGCGATCAAGTTGAAGCAGCGGTTA GTGCCTTGAGTCCGGACCTGATCTTGTTCGATATTGCTTCATGGGTTCCAGAAGTGGCTAΆΆ GAGTATAGAGTCAAGAGTATGTTGTACAACATCATATCAGCTACTTCTATAGCTCATGACTT TGTCCCAGGTGGTGAACTTGGAGTTCCTCCACCTGGTTATCCTTCCTCAAAGTTGTTGTACC GCAAACACGATGCTCACGCCTTGTTGTCCTTCTCCGTCTACTACAAGAGGTTTTCTCATCGG CTCATCACAGGTCTTATGAATTGTGATTTCATTTCGATAAGGACATGCAAAGAAATCGAGGG TAAATTCTGCGAGTATCTTGAGCGTCAATACCATAAAAAGGTTTTCTTGACGGGTCCAATGC TTCCTGAGCCAAACAAAGGTAAACCACTGGAΆGATCGATGGAGTCATTGGCTGAACGGGTTT GAACAAGGCTCTGTAGTGTTCTGTGCATTGGGAAGTCAΆGTCACTCTAGAGAAGGACCAGTT CCAAGAACTTTGTTTAGGAATAGAGCTTACAGGTTTACCGTTTTTTGTAGCTGTAACACCAC CAAAAGGCGCAAAGACGATTCAAGATGCGTTACCAGAAGGGTTCGAGGAGAGGGTGAAAGAT CGTGGAGTGGTTTTGGGAGAATGGGTGCAACAACCGTTATTATTGGCTCATCCATCAGTAGG CTGCTTCTTGAGTCATTGCGGATTCGGGTCAATGTGGGAATCTATAATGAGTGATTGCCAAA TAGTTTTGCTTCCATTTTTGGCTGATCAAGTTCTCAACACAAGATTGATGACCGAAGAACTC AAGGTTTCGGTTGAAGTGCAAAGAGAAGAAACAGGATGGTTCTCGAAGGAGAGCTTGAGTGT TGCTATCACATCTGTGATGGACCAAGCTAGTGAGATCGGGAATCTGGTGAGAAGGAACCATT CCAAATTGAAGGAGGTTTTGGTTAGTGATGGATTATTAACCGGTTACACCGATAAATTTGTT GACACTTTGGAGAATCTTGTCAGCGAGACAAAGCGTGAATGA
>UGT79B11
ATGGGCCAAAAGATTCACGCTTTTATGTTCCCCTGGTTTGCTTTTGGTCATATGACTCCGTA CTTGCATCTAGGCAACAAGTTAGCCGAGAAAGGTCATAGGGTTACTTTCTTGCTACCTAAGA AAGCTCAGAAACAATTGGAACATCAGAATCTATTTCCACACGGTATCGTCTTTCATCCTCTT GTTATTCCTCATGTTGATGGCCTCCCTGCTGGTGCCGAGACAGCCTCGGATATCCCCATCTC GTTGGTGAAGTTCTTGTCTATAGCCATGGATCTTACACGCGATCAGATCGAAGCCGCGATTG GTGCCTTGAGACCGGACCTAATCTTGTTCGATTTAGCTCACTGGGTTCCGGAAATGGCTAAA GCGCTTAAAGTCAAGAGTATGTTGTATAACGTGATGTCAGCTACCTCTATAGCTCACGACCT TGTCCCAGGTGGTGAACTTGGAGTTGCTCCACCTGGTTATCCTTCATCAAAGGCGTTGTACC GCGAACACGATGCTCACGCCTTGTTAACCTTCTCCGGCTTCTACAAGAGGTTTTATCACCGG TTCACCACAGGTCTTATGAATTGCGATTTCATTTCGATTCGGACATGTGAAGAAATCGAAGG TAAATTTTGTGACTATATTGAGAGTCAATACAAGAAGAAGGTTCTTTTAACCGGTCCAATGC TTCCCGAGCCTGACAAGAGTAAACCACTTGAAGATCAATGGAGTCATTGGCTGAGTGGGTTT GGACAAGGCTCTGTAGTGTTCTGTGCATTGGGAAGTCAAACCATTCTAGAGAAAAACCAATT CCAAGAACTCTGTTTAGGAATAGAGCTTACGGGTTTACCATTTCTTGTCGCGGTTAAGCCAC CAAAAGGCGCAAACACAATTCATGAAGCGTTACCAGAAGGGTTCGAGGAAΆGGGTGAAGGGT CGTGGAATAGTTTGGGGAGAATGGGTGCAGCAACCATCCTGGCAACCATTGATATTGGCTCA TCCATCAGTAGGTTGCTTTGTGAGCCATTGCGGATTCGGGTCAATGTGGGAATCTTTAATGA GTGATTGTCAAATAGTCTTTATTCCAGTTTTGAATGATCAAGTTCTCACCACGAGAGTAATG ACGGAGGAACTCGAGGTCTCCGTTGAGGTACAGAGAGAAGAAACAGGATGGTTCTCAAAAGA AΆACTTGAGTGGTGCAATCATGTCTTTGATGGACCAAGACAGCGAGATAGGGAACCAAGTGA GGAGGAACCATTCTAAATTGAAGGAGACTTTGGCTAGTCCTGGATTATTAACCGGTTACACC GATAAATTTGTTGACACTTTGGAGAATCTAGTCAACGAACAAGGATACATATCTTGA
>UGT79B2
ATGGGTGGTTTGAAGTTTCATGTACTTATGTATCCATGGTTCGCAACAGGCCATATGACCCC
GTTCCTTTTTCTTGCCAACAAATTGGCTGAGAAAGGTCATACGGTCACTTTTTTGATTCCCA
AGAAAGCTCTGAAACAGTTGGAAAATCTCAATCTGTTTCCACACAACATTGTCTTTCGCTCT
GTCACCGTCCCTCATGTGGATGGTCTCCCCGTTGGCACAGAGACAGTCTCTGAGATCCCCGT
GACATCAGCTGATCTCTTGATGTCTGCTATGGATCTCACACGTGATCAAGTTGAAGGTGTGG
TCCGAGCCGTGGAACCGGACCTGATCTTCTTTGACTTCGCTCATTGGATTCCAGAGGTAGCT
AGAGACTTTGGCCTTAAGACTGTAAAGTACGTCGTGGTATCTGCATCGACTATAGCTAGTAT
GCTTGTTCCAGGTGGTGAGTTAGGTGTTCCTCCGCCGGGATATCCTTCATCGAAGGTGCTGC
TTCGTAAACAAGATGCTTACACCATGAAGAATCTGGAGTCTACAAATACAATCAATGTCGGA
CCAAACTTATTGGAAAGAGTCACTACAAGTCTTATGAACTCTGATGTCATTGCGATAAGGAC
AGCCAGAGAAATCGAAGGAAACTTTTGCGACTATATCGAAAAACATTGCAGGAAAAAGGTTC
TCTTGACAGGTCCGGTGTTCCCTGAGCCAGACAAGACTAGAGAGCTAGAGGAACGATGGGTT
AAGTGGCTAAGTGGGTATGAACCAGACTCAGTGGTGTTTTGTGCGTTGGGCTCACAAGTCAT
TTTAGAGAAAGATCAATTCCAAGAACTCTGCTTAGGAATGGAGCTAACAGGTTCACCGTTTC
TTGTAGCGGTTAAGCCACCTAGAGGCTCATCAACGATTCAAGAAGCACTTCCTGAAGGATTC
GAGGAGAGGGTTAAAGGAAGAGGAGTTGTTTGGGGAGAATGGGTTCAACAACCATTGCTATT
GTCTCATCCATCAGTCGGGTGCTTTGTGAGCCATTGTGGGTTTGGATCAATGTGGGAGTCTT
TGCTGAGTGATTGTCAGATAGTCTTGGTACCACAGTTGGGTGATCAGGTCCTCAACACAAGA
TTGCTGAGTGACGAACTCAAGGTTTCGGTTGAAGTGGCAAGAGAGGAAACAGGATGGTTCTC
GAAAGAGAGCTTGTTCGATGCTATCAATAGTGTGATGAAAAGGGACAGTGAGATCGGGAATC
TGGTGAAGAAGAATCACACCAAGTGGAGGGAGACACTAACTAGTCCTGGACTTGTGACCGGT TATGTCGATAATTTCATAGAGTCATTGCAGGATCTTGTCTCTGGGACCAACCATGTTTCGAA GTAG
>UGT79B3
ATGGGTGGTTTGAAGTTTCATGTACTTATGTATCCATGGTTCGCAACAGGCCATATGACCCC GTTCCTTTTTCTTGCCAACAAATTGGCTGAGAAAGGTCATACGGTCACTTTCTTGCTTCCCA AGAAΆTCTCTGAAACAGTTGGAACATTTCAATCTGTTTCCACACAACATTGTCTTTCGCTCT GTCACCGTCCCTCATGTGGATGGTCTCCCCGTTGGCACAGAGACAGCCTCTGAGATCCCTGT GACATCAACTGATCTCTTGATGTCTGCTATGGATCTCACACGTGATCAAGTTGAAGCTGTGG TCCGAGCCGTTGAACCGGACCTGATCTTCTTTGACTTTGCTCATTGGATTCCAGAAGTAGCT AGGGACTTCGGCCTTAAGACTGTAAAGTACGTCGTGGTGTCTGCATCGACTATAGCTAGTAT GCTTGTCCCAGGTGGTGAGTTAGGTGTTCCTCCACCGGGATATCCATCATCAAΆGGTGCTGC TTCGTAAACAAGATGCTTACACTATGAAGAAACTGGAGCCTACAAATACAATCGATGTCGGA CCAAACCTCTTGGAACGAGTCACTACAAGTCTTATGAΆCTCTGATGTCATTGCGATAAGGAC AGCCAGAGAAATCGAAGGAΆACTTTTGCGACTATATAGAAAAACATTGCAGGAΆAAAGGTTC TCTTGACAGGTCCGGTGTTCCCTGAGCCAGACAAGACTAGAGAGCTAGAGGAACGATGGGTT AAGTGGCTAAGTGGGTATGAACCAGACTCAGTGGTGTTTTGTGCACTGGGCTCACAAGTCAT TTTAGAGAAAGATCAATTCCAAGAACTCTGCTTAGGAATGGAGCTAACAGGTTCACCGTTTC TTGTAGCGGTTAAGCCCCCTAGAGGCTCATCAACGATTCAAGAAGCACTTCCTGAAGGATTC GAAGAGCGGGTTAAAGGAAGAGGCCTTGTTTGGGGAGGATGGGTTCAACAACCATTGATATT GTCTCATCCATCAGTCGGGTGCTTTGTGAGCCATTGTGGGTTTGGATCAATGTGGGAGTCTT TGCTGAGTGATTGTGAGATAGTCTTAGTACCACAGTTGGGTGATCAAGTCCTGAACACAAGA TTGCTGAGTGACGAACTCAAGGTTTCGGTTGAAGTGGCAAGAGAGGAAACAGGATGGTTCTC GAAAGAGAGCTTGTGCGATGCTGTCAATAGTGTGATGAAAAGGGACAGCGAGCTCGGGAACC TGGTGAGGAAGAATCACACCAAGTGGAGGGAGACAGTAGCTAGTCCTGGACTAATGACTGGT TATGTCGATGCTTTCGTAGAGTCATTGCAGGATCTTGTCTCTGGGACCACCCATGACTGA
>UGT79B4
ATGGGGTCAAAGTTTCATGCTTTTCTTTATCCATGGTTTGGTTTTGGTCATATGATTCCGTA TCTTCATCTAGCTAACAAATTAGCTGAAAAAGGTCATAGGGTTACTTTCTTGGCTCCCAAGA AAGCTCAGAAACAACTCGAACCTCTCAACTTGTTCCCAAACAGCATTCACTTCGAGAATGTT ACTCTTCCTCATGTTGATGGTCTCCCTGTTGGCGCAGAGACAACCGCGGATCTCCCGAACTC ATCTAAGAGAGTCCTCGCTGATGCCATGGATCTTCTACGCGAACAGATTGAAGTTAAGATTC GTTCTTTGAAACCTGACCTAATTTTCTTCGATTTTGTTGATTGGATTCCACAAATGGCAAAA GAATTAGGAATCAAAAGTGTAAGTTACCAGATCATATCGGCAGCTTTTATAGCTATGTTTTT CGCTCCTCGTGCTGAΆTTAGGTTCTCCTCCACCTGGGTTTCCTTCATCAAΆAGTAGCATTAC GTGGACATGACGCTAACATCTATTCACTCTTCGCAAACACCCGCAAATTTCTCTTTGATCGA GTCACCACAGGCCTTAAGAACTGCGACGTCATTGCCATAAGGACATGTGCAGAAATCGAAGG TAACTTATGTGATTTCATCGAAAGACAATGTCAGAGAAAAGTTCTCTTAACCGGTCCAATGT TCCTTGATCCACAAGGGAAGAGTGGTAAGCCGCTAGAAGATCGATGGAATAATTGGTTAAAC GGATTTGAACCAAGCTCGGTAGTGTACTGTGCGTTTGGCACCCATTTCTTTTTCGAGATAGA TCAATTTCAAGAACTCTGTTTAGGAATGGAGCTCACGGGTCTACCTTTTTTGGTAGCGGTTA TGCCACCGAGAGGGTCTTCAACGATTCAΆGAAGCATTACCAGAAGGGTTCGAAGAACGGATT AAΆGGGCGTGGAATTGTTTGGGGAGGATGGGTGGAACAACCTTTGATATTGTCTCATCCATC AATAGGTTGCTTTGTGAACCATTGCGGGTTCGGTTCAATGTGGGAGTCTTTGGTTAGTGATT GCCAGATTGTGTTTATTCCACAATTGGTTGATCAAGTTCTCACAACGAGATTGTTGACCGAA GAACTCGAGGTCTCCGTGAAAGTAAAGAGAGATGAAATTACTGGTTGGTTTTCGAAGGAGAG CTTGAGGGATACGGTCAΆATCTGTGATGGATAAAAATAGTGAGATTGGGAATCTAGTGAGGA GGAATCATAAGAAACTGAAGGAAACTTTGGTTAGTCCTGGATTGTTGAGTAGTTATGCTGAT AAGTTTGTTGACGAATTAGAGAATCATATCCACAGTAAGAATTGA
>UGT79B5
ATGGGATCAAAATTTCATGCTTTTATGTATCCATGGTTTGGTTTTGGTCATATGATTCCATA
TCTTCATTTAGCCAACAAACTAGCTGAGAAAGGTCATAGGGTCACTTTCTTCCTCCCCAAGA
AAGCTCATAAGCAGCTCCAACCTCTCAATCTGTTCCCAGACAGCATTGTCTTTGAGCCTCTT
ACTCTCCCTCCTGTCGATGGTCTCCCTTTTGGCGCCGAGACAGCCTCGGATCTCCCAAACTC AACTAAGAAACCCATATTCGTTGCCATGGATCTCTTACGCGATCAGATCGAAGCAAAGGTCC GTGCTTTGAAACCAGATCTAATCTTTTTCGATTTTGTTCATTGGGTTCCAGAAATGGCAGAA GAGTTTGGAATAAAGAGTGTCAATTACCAGATCATATCGGCAGCTTGTGTAGCTATGGTTCT TGCACCTAGGGCTGAATTAGGGTTTCCTCCGCCGGATTATCCTTTATCCAAAGTGGCGTTAC GTGGACATGAAGCTAACGTCTGTTCTCTCTTTGCGAATTCCCATGAGCTTTTCGGTCTGATC ACCAAAGGCCTTAAGAACTGTGACGTCGTTTCCATAAGGACCTGCGTGGAACTTGAAGGTAA GCTATGCGGTTTCATCGAAAAAGAATGTCAAAAGAAACTTCTCTTAACCGGTCCAATGCTCC CTGAACCGCAAAATAAGAGTGGTAAATTTCTAGAAGACCGATGGAATCACTGGTTAAACGGA TTTGAACCAGGGTCGGTAGTGTTTTGTGCGTTTGGCACTCAATTCTTTTTCGAGAAGGATCA ATTTCAAGAATTCTGTTTAGGAATGGAGCTAATGGGTCTACCGTTTTTAATATCGGTTATGC CGCCAAAAGGCTCACCAACGGTTCAAGAAGCGTTACCAAAAGGATTCGAAGAACGGGTTAAA AAGCATGGAATCGTTTGGGAAGGATGGTTGGAACAACCTTTGATATTGTCTCATCCATCAGT AGGTTGCTTTGTGAACCATTGTGGCTTTGGTTCAATGTGGGAGTCTTTGGTTAGTGATTGTC AGATTGTGTTTATTCCACAATTGGCAGATCAAGTTCTCATCACAAGATTGTTGACTGAAGAA CTCGAAGTCTCTGTGAAAGTGCAGAGAGAAGATTCCGGATGGTTCTCGAAAGAGGACTTGAG AGATACTGTTAAATCTGTGATGGATATAGATAGTGAGATTGGGAACTTAGTGAAGAGGAATC ATAAGAAATTGAAAGAGACTTTAGTTAGTCCTGGATTGTTAAGTGGTTATGCTGATAAGTTT GTAGAAGCATTGGAGATTGAAGTCAACAACACCAAATTTTCTTGA
>UGT79B6
ATGGGGTCAAAGTTTCATGCTTTTATGTTCCCATGGTTTGGTTTTGGTCACATGACTGCATT TTTGCATCTGGCTAACAAACTAGCGGAGAAAGACCACAAAATAACTTTCTTGCTCCCCAAGA AAGCTCGAAAGCAACTTGAATCTCTCAATCTCTTCCCAGACTGCATTGTCTTTCAGACTCTT ACCATCCCATCTGTAGATGGCCTCCCTGATGGTGCTGAGACAACCTCGGATATCCCGATCTC GTTAGGCAGTTTTCTCGCCTCGGCTATGGATCGGACACGCATTCAGGTCAAAGAAGCAGTTT CTGTTGGTAAACCGGATCTGATTTTCTTCGATTTTGCTCACTGGATTCCGGAAATAGCTAGA GAGTATGGAGTCAAGAGTGTCAATTTCATAACGATTTCTGCAGCATGTGTAGCTATTTCGTT CGTCCCTGGTCGTAGTCAAGATGACTTGGGTAGTACTCCACCGGGATACCCTTCCTCCAAGG TGTTGCTTCGGGGACACGAAACCAACAGTTTGTCGTTCCTCTCCTATCCGTTTGGAGATGGA ACTAGTTTTTACGAACGGATCATGATAGGACTTAAGAACTGCGATGTCATTTCGATAAGGAC ATGCCAAGAAATGGAAGGAAAGTTCTGCGATTTCATCGAAAACCAATTTCAAAGAAAAGTTC TCTTGACAGGTCCAATGCTTCCTGAGCCGGACAATAGCAAACCGCTAGAAGATCAATGGCGT CAGTGGCTTAGCAAGTTCGATCCGGGATCAGTAATATATTGTGCATTGGGCAGCCAAATCAT TCTTGAAAAGGATCAATTCCAAGAACTCTGTTTAGGAATGGAGCTGACAGGTTTACCATTTC TTGTAGCGGTAAAGCCACCAAAAGGTTCATCGACAATCCAAGAAGCCTTACCAAAAGGGTTT GAAGAGAGGGTTAAAGCACGTGGAGTGGTTTGGGGAGGATGGGTGCAGCAACCATTGATATT AGCTCATCCATCAATAGGCTGCTTTGTGAGCCATTGTGGTTTCGGGTCAATGTGGGAGGCTC TAGTGAATGACTGCCAAATAGTGTTTATTCCACATTTGGGTGAGCAAATATTGAACACAAGA CTGATGAGCGAGGAACTCAAGGTCTCGGTAGAGGTGAΆAAGAGAGGAAACGGGATGGTTTTC GAAGGAGAGCTTGAGCGGTGCGGTCAGGTCTGTGATGGACAGAGATAGCGAGCTCGGGAATT GGGCGAGGAGGAACCACGTAAAGTGGAAGGAGTCTCTGCTTCGTCATGGACTAATGAGTGGT TATCTTAATAAGTTCGTAGAAGCATTGGAGAAACTAGTCCAAAATATAAATCTTGAATGA
>UGT79B7
ATGGAGCCAAAGTTTCATGCTTTTATGTTTCCATGGTTTGCTTTTGGTCATATGATTCCATT TCTACATCTTGCAAACAAACTAGCTGAAAAAGGTCACCGAGTTACTTTCTTGCTACCTAAGA AAGCACAAAAACAGTTGGAACATCACAACTTGTTCCCAGACAGTATTGTCTTTCACCCTCTC ACAGTTCCTCCTGTCAATGGCCTCCCTGCTGGTGCCGAGACAACCTCGGATATCCCCATCTC GTTGGACAACCTCTTGTCCAAAGCCTTGGATCTCACTCGCGATCAGGTTGAAGCTGCGGTTC GTGCTTTGAGACCTGACTTGATCTTTTTCGATTTTGCTCAATGGATTCCAGATATGGCTAAA GAACATATGATCAAGAGTGTGAGTTACATCATTGTATCTGCGACAACAATAGCTCATACACA TGTCCCTGGAGGTAAATTAGGTGTTCGCCCACCGGGTTATCCGTCATCAAAGGTGATGTTCC GTGAAAACGATGTTCATGCCTTAGCAΆCCTTATCGATATTTTACAAGAGACTGTATCATCAG ATCACTACAGGTCTTAAGAGCTGTGATGTCATTGCATTGAGGACTTGCAAAGAAGTCGAAGG TATGTTCTGCGACTTTATATCGCGTCAATACCATAAGAAGGTTCTCTTGACTGGTCCAATGT TCCCTGAGCCAGACACAAGTAAACCACTAGAAGAACGCTGGAATCATTTTCTAAGCGGGTTC GCGCCGAAGTCAGTAGTGTTTTGTTCACCTGGCAGCCAAGTAATTCTTGAGAAAGATCAATT CCAAGAACTCTGTTTAGGGATGGAGCTAACAGGTTTACCATTTCTTTTAGCGGTAAAGCCAC CAAGAGGATCATCAACGGTCCAAGAAGGGTTACCAGAAGGGTTCGAGGAGCGGGTGAAAGAT CGTGGTGTTGTTTGGGGAGGATGGGTGCAACAACCTTTGATATTGGCTCATCCATCAATAGG TTGCTTTGTGAACCATTGTGGTCCCGGAACAATATGGGAGTCTTTGGTGAGTGATTGCCAAA TGGTTTTGATTCCATTTTTAAGTGATCAAGTTCTCTTCACAAGATTGATGACCGAGGAATTC GAGGTCTCTGTAGAAGTGCCGAGGGAAAAAACAGGATGGTTTTCAAAGGAGAGCTTGAGCAA TGCTATCAAATCTGTGATGGATAAAGACAGTGACATTGGGAAGTTAGTGAGGAGTAACCACA CCAAATTGAAGGAGATTTTAGTTAGTCCTGGATTATTGACTGGTTACGTTGATCACTTTGTA GAGGGATTGCAAGAGAATTTGATTTGA
>UGT79B8
ATGGAGCCAACGTTCCATGCTTTTATGTTTCCCTGGTTTGCTTTTGGTCATATGATTCCTTT
TCTACATCTTGCAAACAAACTAGCTGAGAAAGGTCATCAAATCACTTTCTTGCTACCTAAGA
AAGCCCAAAAACAGTTGGAACATCACAATCTGTTCCCAGACAGTATTGTCTTTCACCCTCTC
ACAATCCCTCATGTCAATGGCCTCCCTGCTGGTGCTGAGACAACCTCGGATATCTCAATCTC
GATGGACAACTTACTGTCGGAAGCCTTGGATCTCACTCGCGATCAGGTTGAAGCTGCGGTTC
GTGCTCTGAGACCGGACTTGATCTTTTTTGATTTTGCTCATTGGATTCCAGAAATTGCCAAA
GAGCATATGATCAAGAGTGTGAGTTACATGATAGTATCTGCAACAACAATAGCTTATACATT
TGCCCCTGGTGGTGTATTAGGTGTTCCCCCACCAGGTTATCCTTCATCAAAGGTGTTGTACC
GTGAAAACGATGCTCATGCCTTAGCAACCTTATCTATCTTCTACAAGAGACTTTATCATCAG
ATCACTACAGGTTTTAAGAGCTGTGACATCATTGCATTGAGGACATGTAATGAAATCGAAGG
TAAATTCTGCGACTATATATCAAGTCAATACCATAAGAAGGTTCTCTTGACTGGTCCAATGC
TCCCTGAGCAAGACACAAGTAAACCACTAGAAGAACAGTTGAGTCATTTTCTGAGCAGGTTC
CCACCGAGGTCAGTGGTGTTTTGTGCACTTGGTAGCCAGATCGTTCTTGAAAAGGATCAATT
CCAAGAACTCTGCTTAGGGATGGAGCTGACAGGTTTACCGTTTCTTATAGCGGTAAAGCCAC
CGAGAGGATCATCGACGGTCGAAGAAGGGTTACCAGAAGGGTTCCAGGAGCGGGTGAAAGGG
CGTGGTGTGGTTTGGGGAGGATGGGTGCAACAACCATTGATATTGGATCATCCGTCAATAGG
CTGCTTTGTGAACCATTGTGGTCCGGGAACAATATGGGAGTGTCTTATGACTGATTGTCAAA
TGGTTTTGCTTCCATTTTTAGGTGATCAAGTTCTCTTCACAAGATTGATGACCGAGGAATTC
AAGGTGTCTGTAGAAGTGTCGAGAGAAAAAACAGGATGGTTTTCAAAGGAGAGCTTGAGCGA
TGCGATCAAGTCTGTGATGGATAAAGATAGCGACCTCGGAAAGCTAGTGAGGAGTAACCACG
CCAAATTGAAGGAGACTCTTGGTAGTCATGGATTATTAACTGGTTACGTGGATAAATTTGTA
GAGGAATTGCAAGAGTATTTGATTTGA
>UGT79B9
ATGGGCCAAAATTTTCACGCTTTTATGTTCCCATGGTTCGCTTTTGGTCATATGACTCCATA CTTGCATCTAGCCAACAAGCTAGCTGCTAAAGGTCATAGGGTTACTTTCTTGCTGCCTAAGA AAGCTCAAAAACAGTTGGAACATCACAATCTGTTTCCAGACAGGATCATCTTTCATTCTCTT ACTATTCCCCATGTTGATGGCCTACCTGCTGGCGCGGAGACCGCCTCGGACATCCCCATCTC GTTGGGGAAGTTTCTTACCGCAGCCATGGATCTCACTCGCGATCAGGTCGAAGCCGCGGTTC GTGCTTTGAGACCAGACCTGATCTTTTTCGATACTGCTTATTGGGTTCCGGAAATGGCGAAA GAACACAGAGTCAAGAGTGTGATATACTTTGTGATATCAGCTAACTCCATAGCTCATGAACT TGTACCAGGTGGTGAATTAGGAGTTCCTCCACCTGGCTATCCTTCGTCAAAAGTGTTGTACC GTGGACACGATGCTCACGCTTTGTTGACTTTTTCCATCTTCTACGAGAGGCTTCATTACCGG ATAACAACAGGTCTAAAGAATTGTGATTTTATCTCAATTAGGACTTGTAAAGAAATCGAAGG TAAΆTTCTGCGACTATATAGAGCGTCAATACCAGAGGAAGGTTCTTTTGACAGGTCCAATGC TTCCAGAGCCAGATAACAGTAGACCACTCGAAGATCGATGGAATCACTGGCTGAATCAGTTC AAACCCGGCTCGGTAATATATTGTGCATTGGGAAGTCAAATCACTCTAGAGAAGGATCAATT CCAAGAACTCTGTTTAGGAATGGAGCTCACTGGTTTACCGTTTCTCGTAGCGGTAAAACCAC CAAAAGGCGCAAAGACGATCCAAGAAGCGTTGCCAGAAGGGTTTGAGGAGAGGGTGAAGAAT CATGGAGTAGTTTGGGGAGAATGGGTGCAGCAACCATTGATATTGGCTCATCCATCAGTAGG CTGCTTTGTGACCCATTGTGGGTTTGGATCAATGTGGGAGTCTCTAGTGAGTGATTGTCAAA TAGTCTTGCTTCCATATTTGTGTGATCAAATTCTCAACACTAGATTGATGAGTGAGGAACTC GAGGTTTCGGTGGAAGTGAAAAGAGAAGAAACAGGATGGTTCTCGAAAGAGAGCTTAAGTGT TGCGATCACCTCGGTGATGGACAAAGATAGTGAGTTAGGGAATCTGGTGAGGAGGAACCACG CTAAATTAAAGGAGGTTTTGGTTAGTCCTGGATTATTAACCGGTTACACCGATGAATTTGTT GAAACTTTGCAGAATATAGTCAACGATACAAATCTTGAATGA
>UGT82A1
ATGAAAGTAACACAAAAGCCAAAGATAATATTCATCCCTTATCCGGCGCAAGGCCACGTCAC TCCGATGCTTCACCTTGCATCGGCTTTCCTCAGCCGTGGATTCTCCCCTGTCGTTATGACTC CCGAGTCTATCCACCGTAGGATCTCGGCTACTAACGAGGATCTTGGGATCACGTTCTTGGCC TTATCTGACGGTCAΆGATCGTCCGGACGCACCTCCCTCGGACTTCTTCTCGATAGAGAACTC AATGGAGAACATCATGCCACCACAGCTCGAACGGCTCCTACTAGAAGAAGACTTGGATGTGG CTTGTGTTGTGGTTGATTTGCTGGCTTCGTGGGCTATAGGAGTGGCTGATCGGTGTGGAGTT CCGGTCGCCGGATTCTGGCCGGTGATGTTCGCTGCTTACCGTTTGATCCAAGCAATACCGGA GCTAGTCCGAACAGGCTTAGTTTCCCAAAΆAGGTTGTCCTCGTCAACTAGAAAAAACAATAG TCCAGCCAGAGCAACCGCTCCTATCCGCAGAAGATCTACCGTGGCTGATCGGAACTCCCAAA GCTCAGAAAAAACGATTCAAGTTCTGGCAAAGAΆCTCTAGAACGAACAAAAAGTCTCCGTTG GATCTTGACAAGCTCCTTTAAAGATGAATATGAAGATGTCGACAACCACAAAGCATCCTACA AAAAATCTAACGATTTAAACAAAGAAAACAATGGTCAAAACCCTCAAATCCTTCATTTAGGT CCATTGCATAACCAAGAAGCAACAAATAATATAACTATAACCAAGACTAGTTTTTGGGAAGA AGACATGTCTTGTCTAGGTTGGCTTCAAGAACAAAACCCGAACTCAGTCATTTATATCTCAT TTGGAAGTTGGGTTTCTCCTATAGGAGAATCAAATATTCAAACGTTGGCATTGGCGTTGGAA GCGTCAGGGAGACCTTTCCTTTGGGCGTTAAACCGAGTGTGGCAAGAGGGACTACCACCAGG TTTTGTGCATAGAGTCACAATTACCAAAAACCAAGGAAGGATCGTCTCATGGGCTCCGCAAC TTGAAGTTCTTAGAAACGATTCTGTGGGATGTTACGTGACTCATTGTGGCTGGAACTCGAGT ATGGAGGCAGTGGCAAGTTCCCGGAGGCTACTATGTTATCCGGTGGCCGGAGACCAGTTTGT TAACTGTAAATACATCGTGGACGTTTGGAAGATTGGAGTGAGATTGAGCGGGTTTGGAGAGA AGGAGGTTGAAGATGGACTAAGGAAAGTAATGGAGGATCAAGATATGGGTGAGAGATTGAGG AAGTTAAGAGACAGAGCAATGGGGAATGAAGCTCGTTTGAGTTCGGAAATGAATTTTACATT TTTAΆAAAACGAGCTTAATTAG
>UGT83A1
ATGGATAATAACTCAAATAAAAGAATGGGAAGGCCACATGTTGTGGTCATACCTTACCCTGC ACAAGGTCATGTTCTTCCTCTAATAAGTTTCTCACGTTACCTTGCGAAACAAGGAATCCAAA TTACATTCATAAACACCGAGTTTAACCATAACCGCATCATCAGTTCCTTACCCAATTCACCT CATGAAGATTATGTTGGGGATCAGATCAATCTTGTTTCAATCCCTGACGGTTTAGAAGATTC ACCAGAAGAGAGGAACATTCCAGGGAAGTTGTCGGAGTCTGTTTTGCGTTTTATGCCTAAAA AAGTAGAGGAATTGATCGAGAGGATGATGGCAGAAACTAGCGGTGGTACGATCATTAGCTGC GTTGTAGCGGATCAGAGCTTGGGATGGGCAATTGAAGTTGCAGCTAAGTTTGGGATCAGACG CACCGCGTTTTGTCCTGCTGCAGCTGCGTCTATGGTTCTTGGATTTAGTATTCAAAAACTTA TCGATGATGGTCTCATAGATTCTGATGGGACTGTGAGAGTAAATAAGACAATTCAACTATCT CCCGGGATGCCAAAGATGGAΆACAGACAAGTTTGTGTGGGTTTGTCTGAAGAACAAAGAATC TCAGAAAAACATATTCCAACTTATGCTTCAAAACAATAACTCGATCGAGTCAACGGATTGGT TGTTGTGTAACTCTGTCCATGAACTTGAAACTGCAGCATTTGGATTGGGCCCGAATATAGTA CCAATTGGGCCCATTGGTTGGGCTCATAGTCTTGAAGAGGGATCCACGTCACTAGGAAGCTT TTTACCTCATGACCGGGATTGTCTAGATTGGTTGGACCGGCAGATTCCCGGTTCGGTTATAT ATGTTGCCTTTGGGAGTTTTGGGGTCATGGGCAACCCTCAGTTAGAAGAGCTAGCAATTGGT CTAGAGCTTACCAAGAGGCCAGTTTTGTGGGTCACTGGTGATCAACAACCAATCAAACTTGG GTCGGATCGAGTCAAAGTGGTGAGATGGGCTCCACAΆCGGGAGGTCCTTTCTTCTGGAGCCA TTGGGTGTTTTGTGAGCCATTGTGGATGGAATTCAACTCTGGAΆGGAGCCCAAAATGGCATA CCATTTCTATGCATCCCTTATTTTGCAGACCAATTTATCAACAAAGCATATATATGCGATGT GTGGAAGATTGGATTAGGACTTGAAAGAGACGCACGAGGAGTGGTTCCGAGGTTAGAGGTTA AGAAGAAGATCGATGAGATCATGAGAGACGGTGGAGAGTATGAAGAACGAGCTATGAAGGTT AAAGAGATTGTGATGAAAAGTGTTGCAAAAGATGGAATATCTTGTGAGAATCTTAATAAATT TGTCAACTGGATCAAATCACAAGTGAATTGA
>UGT84A1
ATGGTGTTCGAAACTTGTCCATCTCCAAACCCAATTCATGTAATGCTCGTCTCGTTTCAAGG
ACAAGGCCACGTCAACCCTCTTCTTCGTCTCGGCAAGTTAATTGCTTCAAAGGGTTTACTCG TTACCTTCGTTACAACGGAGCTTTGGGGCAAGAAAATGAGACAAGCCAACAAAATCGTTGAC GGTGAACTTAAACCGGTTGGTTCCGGTTCAATCCGGTTTGAGTTCTTTGATGAAGAATGGGC AGAGGATGATGACCGGAGAGCTGATTTCTCTTTGTACATTGCTCACCTAGAGAGCGTTGGGA TACGAGAAGTGTCTAΆGCTTGTGAGAAGATACGAGGAAGCGAACGAGCCTGTCTCGTGTCTT ATCAATAACCCGTTTATCCCATGGGTCTGCCACGTGGCGGAAGAGTTCAACATTCCTTGTGC GGTTCTCTGGGTTCAGTCTTGTGCTTGTTTCTCTGCTTATTACCATTACCAAGATGGCTCTG TTTCATTCCCTACGGAAACAGAGCCTGAGCTCGATGTGAAGCTTCCTTGTGTTCCTGTCTTG AAGAACGACGAGATTCCTAGCTTTCTCCATCCTTCTTCTAGGTTCACGGGTTTTCGACAAGC GATTCTTGGGCAATTCAAGAATCTGAGCAAGTCCTTCTGTGTTCTAATCGATTCTTTTGACT CATTGGAACAAGAAGTTATCGATTACATGTCAAGTCTTTGTCCGGTTAAAACCGTTGGACCG CTTTTCAAAGTTGCTAGGACAGTTACTTCTGACGTAAGCGGTGACATTTGCAΆATCAACAGA TAAATGCCTCGAGTGGTTAGACTCGAGGCCTAAATCGTCAGTTGTCTACATTTCGTTCGGGA CAGTTGCATATTTGAAGCAAGAACAGATCGAAGAGATCGCTCACGGAGTTTTGAAGTCGGGT TTATCGTTCTTGTGGGTGATTAGACCTCCACCACACGATCTGAAGGTCGAGACACATGTCTT GCCTCAAGAACTTAAAGAGAGTAGTGCTAAAGGTAAAGGGATGATTGTGGATTGGTGCCCAC AAGAGCAAGTCTTGTCTCATCCTTCAGTGGCATGCTTCGTGACTCATTGTGGATGGAACTCG ACAATGGAATCTTTGTCTTCAGGTGTTCCGGTGGTTTGTTGTCCGCAATGGGGAGATCAAGT GACTGATGCAGTGTATTTGATCGATGTTTTCAAGACCGGGGTTAGACTAGGCCGTGGAGCGA CCGAGGAGAGGGTAGTGCCAAGGGAGGAAGTGGCGGAGAAGCTTTTGGAAGCGACAGTTGGG GAGAAGGCAGAGGAGTTGAGAAAGAACGCTTTGAAATGGAAGGCGGAGGCGGAAGCAGCGGT GGCTCCAGGAGGTTCGTCGGATAAGAΆTTTTAGGGAGTTTGTGGAGAAGTTAGGTGCGGGAG TAACGAAGACTAAAGATAΆTGGATACTAG
>UGT84A2
ATGGAGCTAGAATCTTCTCCTCCTCTACCTCCTCATGTGATGCTCGTATCTTTTCCAGGGCA AGGCCACGTTAATCCACTTCTTCGTCTTGGTAAGCTCTTAGCTTCAAAGGGTTTGCTCATAA CCTTCGTCACCACTGAGTCATGGGGCAAAAAGATGCGAATCTCCAACAAAATCCAAGACCGT GTCCTCAAACCGGTTGGTAAAGGCTATCTCCGGTATGATTTCTTCGACGACGGGCTTCCTGA AGACGACGAAGCTAGCAGAACCAACTTAACCATCCTCCGACCACATCTAGAGCTGGTCGGCA AAAGAGAGATCAAGAACCTTGTGAAACGTTACAAGGAAGTAACGAAACAGCCCGTGACATGT CTTATCAACAACCCTTTCGTCTCTTGGGTCTGTGACGTGGCAGAAGATCTTCAAATCCCTTG TGCTGTTCTTTGGGTTCAATCTTGTGCCTGCTTAGCTGCTTATTACTATTACCACCACAACC TAGTTGACTTCCCGACCAAAACAGAACCCGAGATCGATGTCCAAATCTCTGGCATGCCTCTC TTGAAACATGACGAGATCCCTTCTTTCATTCACCCTTCAAGTCCTCACTCCGCTTTGCGAGA AGTGATCATAGATCAGATTAAACGGCTTCACAAGACTTTCTCCATTTTCATCGACACTTTCA ACTCATTGGAGAAAGACATCATTGACCACATGTCGACGCTCTCTCTCCCCGGTGTTATCAGA CCGCTAGGACCACTCTACAAAATGGCTAAAACCGTAGCTTATGATGTCGTTAAAGTAAACAT CTCTGAGCCAACGGATCCTTGCATGGAGTGGTTAGACTCGCAGCCAGTTTCCTCCGTTGTTT ACATCTCATTCGGGACCGTTGCTTACTTGAAΆCAAGAACAAATAGACGAGATCGCTTACGGT GTGTTAAACGCCGACGTTACGTTCTTGTGGGTGATTAGACAACAAGAGTTAGGTTTCAACAA AGAGAAACATGTTTTGCCGGAAGAAGTTAAAGGGAAAGGGAAGATCGTTGAATGGTGTTCAC AAGAGAAAGTATTATCTCATCCTTCAGTGGCATGTTTCGTGACTCACTGTGGATGGAACTCA ACGATGGAAGCTGTGTCTTCCGGAGTCCCGACGGTTTGTTTTCCTCAATGGGGAGATCAAGT CACGGACGCCGTTTACATGATCGATGTTTGGAAGACGGGAGTGAGGCTAAGCCGTGGAGAGG CGGAGGAGAGGTTAGTGCCGAGGGAGGAAGTTGCGGAGAGGTTGAGAGAGGTTACTAAAGGA GAGAAAGCGATCGAGTTGAAAAAGAATGCTTTGAΆGTGGAAGGAAGAGGCGGAGGCGGCGGT TGCTCGCGGTGGTTCGTCGGATAGGAATCTTGAAAAGTTTGTGGAGAAGTTGGGTGCCAAAC CTGTGGGGAAAGTACAAAACGGGAGTCATAATCATGTCTTGGCTGGATCAATCAAAAGCTTT
TAA
>UGT84A3
ATGGACCCGTCTCGTCATACTCATGTGATGCTCGTATCTTTCCCCGGCCAAGGTCACGTAAA
CCCTCTACTTCGTCTCGGAAAGCTCATAGCCTCTAAAGGCTTACTCGTCACCTTTGTCACCA
CAGAGAAGCCATGGGGCAAGAAGATGCGTCAAGCCAACAAGATTCAAGACGGTGTGCTCAAA
CCGGTCGGTCTAGGTTTCATCCGGTTTGAGTTCTTCTCTGACGGCTTCGCCGACGACGATGA
AAAAAGATTCGACTTCGATGCCTTCCGACCACACCTTGAAGCTGTCGGAAAACAAGAGATCA AGAATCTCGTTAAGAGATATAACAAGGAGCCGGTGACGTGTCTCATAAACAACGCTTTTGTC CCATGGGTATGTGATGTCGCCGAGGAGCTTCACATCCCTTCGGCTGTTCTATGGGTCCAGTC TTGTGCTTGTCTCACGGCTTATTACTATTACCACCACCGGTTAGTTAAGTTCCCGACCAAAA CCGAGCCGGACATCAGCGTTGAAATCCCTTGCTTGCCATTGTTAAAGCATGACGAGATCCCA AGCTTTCTTCACCCTTCGTCTCCGTATACAGCTTTTGGAGATATCATTTTAGACCAGTTAAA GAGATTCGAAΆACCACAAGTCTTTCTATCTTTTCATCGACACTTTTCGCGAACTAGAAAAAG ACATCATGGACCACATGTCACAACTTTGTCCTCAAGCCATCATCAGTCCTGTCGGTCCGCTC TTCAAGATGGCTCAAACCTTGAGTTCTGACGTTAAGGGAGATATATCCGAGCCAGCGAGTGA CTGCATGGAATGGCTTGACTCAAGAGAACCATCCTCAGTCGTTTACATCTCCTTTGGGACTA TAGCCAACTTGAAGCAAGAGCAGATGGAGGAGATCGCTCATGGCGTTTTGAGCTCTGGCTTG TCGGTCTTATGGGTGGTTCGGCCTCCCATGGAAGGGACATTTGTAGAACCACATGTTTTGCC TCGAGAGCTCGAAGAAAAGGGTAAAATCGTGGAATGGTGTCCCCAΆGAGAGAGTCTTGGCTC ATCCTGCGATTGCTTGTTTCTTAAGTCACTGCGGATGGAACTCGACAATGGAGGCTTTAACT GCCGGAGTCCCCGTTGTTTGTTTTCCGCAATGGGGAGATCAAGTGACTGATGCGGTGTACTT GGCTGATGTTTTCAAGACAGGAGTGAGACTAGGCCGCGGAGCCGCTGAGGAGATGATTGTTT CGAGGGAGGTTGTAGCAGAGAAGCTGCTTGAGGCCACAGTTGGGGAAAAGGCGGTGGAGCTG AGAGAAAACGCTCGGAGGTGGAAGGCGGAGGCCGAGGCCGCCGTGGCGGACGGTGGATCATC TGATATGAACTTTAAAGAGTTTGTGGACAAGTTGGTTACGAAACATGTGACGAGAGAAGACA ACGGAGAACACTAG
>UGT84A4
ATGGAGATGGAATCGTCGTTACCTCATGTGATGCTCGTATCATTCCCAGGGCAAGGTCACAT AAGCCCTCTTCTTCGTCTCGGAAAGATCATTGCCTCTAAAGGCTTAATCGTCACCTTTGTAA CCACAGAGGAACCATTGGGCAAGAAGATGCGTCAAGCCAACAATATTCAAGACGGTGTGCTC AAACCGGTCGGGCTAGGTTTTCTCCGGTTCGAGTTCTTCGAGGATGGATTTGTCTACAAAGA AGACTTTGATTTGTTACAAAAATCACTTGAAGTTTCCGGAAAACGAGAGATCAAGAATCTTG TCAAGAAATATGAGAAGCAACCAGTGAGATGTCTCATAΆATAΆTGCCTTTGTTCCATGGGTT TGTGACATAGCCGAGGAGCTTCAAATCCCATCAGCTGTTCTTTGGGTCCAGTCTTGTGCTTG CCTCGCCGCTTATTACTATTACCACCACCAGTTAGTTAAGTTTCCGACCGAAACCGAGCCGG AAATAACCGTTGACGTCCCTTTCAAGCCATTAACATTGAAGCATGACGAGATCCCTAGCTTT CTTCACCCTTCCTCTCCGCTGTCCTCTATAGGAGGTACCATTTTAGAGCAGATCAΆGCGACT TCACAAGCCTTTCTCTGTTCTCATCGAAACTTTTCAAGAACTTGAAAAAGATACCATTGACC ACATGTCCCAGCTCTGCCCTCAAGTCAACTTCAACCCCATCGGTCCGCTTTTTACTATGGCT AAAACCATAAGGTCTGACATCAAGGGAGACATCTCCAAGCCAGATAGTGACTGCATAGAGTG GCTTGACTCGAGAGAACCATCCTCCGTTGTTTACATCTCTTTTGGGACTTTGGCTTTCTTGA AGCAAAACCAGATCGACGAGATTGCTCACGGCATTCTCAACTCCGGGTTGTCCTGCTTATGG GTTTTGCGGCCTCCCTTAGAAGGCTTAGCCATAGAACCGCATGTCTTGCCTCTAGAGCTTGA AGAGAAAGGGAAGATTGTGGAATGGTGTCAACAAGAGAAAGTTTTGGCTCATCCTGCGGTTG CTTGCTTCTTAAGTCACTGTGGATGGAACTCAACCATGGAGGCTTTAACTTCAGGAGTTCCC GTTATTTGTTTCCCGCAGTGGGGAGATCAGGTGACAAATGCGGTGTACATGATTGATGTTTT CAAGACAGGATTGAGACTCAGCCGTGGAGCTTCCGATGAGAGGATTGTTCCAAGGGAGGAGG TTGCTGAGCGACTGCTTGAGGCCACCGTTGGAGAGAAGGCGGTGGAGCTGAGAGAAAACGCT CGGAGGTGGAAGGAGGAGGCGGAGTCTGCCGTGGCTTACGGTGGAACATCGGAAAGGAATTT TCAAGAGTTTGTTGACAAGTTGGTTGATGTCAAGACAATGACAAACATTAATAATGTCGTGT
AA
>UGT84B1
ATGGGCAGTAGTGAGGGTCAAGAAACACATGTCCTAATGGTAACACTACCATTCCAAGGTCA
CATCAATCCAATGCTCAAACTCGCAAAACATCTCTCGTTATCATCAAAGAACCTACACATCA
ATCTCGCCACTATTGAGTCAGCCCGTGATCTCCTCTCCACCGTAGAAAAACCTCGTTATCCG
GTGGACCTCGTGTTCTTCTCCGATGGTCTACCTAAAGAAGATCCAAAGGCCCCTGAAACTCT
TTTGAAGTCATTGAATAAAGTCGGAGCCATGAACTTGTCTAAAATCATCGAAGAAAAGAGAT
ACTCTTGTATCATCTCTTCGCCTTTTACTCCATGGGTTCCAGCTGTTGCAGCCTCTCATAAC
ATCTCTTGTGCAATACTTTGGATCCAAGCTTGTGGAGCTTACTCGGTTTATTACCGTTACTA
CATGAAGACAAACTCTTTCCCTGATCTTGAAGATCTGAATCAAACGGTGGAGTTACCAGCTT
TACCATTGTTGGAAGTTCGAGATCTTCCATCGTTTATGTTACCTTCTGGTGGTGCTCACTTC TATAATCTAATGGCGGAATTTGCAGATTGTTTGAGGTATGTGAAATGGGTTTTGGTTAATTC ATTCTATGAACTCGAATCAGAGATAATCGAATCGATGGCTGATTTAAAACCTGTAATTCCAA TTGGTCCTCTGGTTTCTCCATTTCTGTTGGGCGATGGTGAGGAGGAAACCCTAGACGGTAAA AACCTAGATTTTTGTAΆATCTGATGATTGTTGTATGGAGTGGCTTGACAAGCAΆGCTAGGTC TTCTGTTGTGTACATATCTTTCGGAAGTATGCTCGAAACATTGGAGAATCAGGTCGAGACCA TAGCGAAGGCGCTGAAGAACAGAGGACTTCCATTTCTTTGGGTGATAAGGCCAAAGGAGAΆA GCCCAAAACGTTGCTGTTTTGCAGGAGATGGTGAAAGAAGGACAAGGGGTTGTTCTCGAGTG GAGTCCACAAGAGAAGATTTTGAGCCACGAGGCAΆTCTCTTGTTTTGTCACGCATTGCGGCT GGAACTCGACTATGGAGACGGTGGTGGCTGGTGTTCCTGTGGTAGCGTACCCTAGCTGGACG GATCAGCCCATTGACGCGCGGTTGCTTGTTGATGTGTTTGGAATCGGAGTAAGGATGAGGAA TGACAGTGTCGATGGCGAGCTTAAGGTCGAAGAAGTAGAAAGATGCATTGAGGCCGTGACGG AGGGACCCGCTGCCGTGGATATAAGAAGGAGAGCGGCGGAGCTAAAGCGCGTGGCGAGATTG GCGTTGGCACCTGGTGGATCTTCGACACGGAATTTAGACTTGTTCATTAGTGATATCACAAT
CGCCTAA >UGT84B2
ATGGGAAGTAATGAGGGTCAAGAAACACATGTCCTAATGGTAGCATTAGCATTCCAAGGTCA TCTCAATCCAATGCTCAAΆTTCGCAAAACATCTCGCACGAACCAATCTACACTTCACTCTCG CCACCACTGAGCAAGCCCGTGACCTCCTCTCTTCCACCGCTGACGAACCTCATAGACCGGTG GACCTCGCTTTCTTCTCAGACGGTCTACCTAAAGACGATCCAΆGAGATCCCGACACTCTCGC AAAGTCATTGAAΆAΆAGATGGAGCCAAGAACTTGTCAAAAATCATCGAAGAAAAGAGATTTG ATTGCATCATCTCTGTGCCTTTTACTCCCTGGGTTCCAGCTGTTGCAGCTGCACATAACATT CCTTGTGCAATCCTCTGGATCCAAGCTTGTGGAGCTTTTTCTGTTTATTACCGTTATTACAT GAAGACAAATCCTTTCCCCGACCTTGAAGATCTGAATCAAACAGTGGAGTTACCAGCTTTAC CATTGTTGGAAGTCCGAGATCTCCCGTCATTGATGTTACCTTCTCAAGGAGCTAATGTCAAT ACCCTAATGGCGGAATTTGCAGATTGTTTGAAAGATGTGAAATGGGTTTTGGTTAACTCGTT TTACGAACTCGAATCAGAGATCATCGAGTCTATGTCTGATTTAAAACCTATAΆTCCCAATTG GTCCTCTTGTTTCTCCATTCCTGTTGGGAAATGATGAAGAAAAAACCCTAGATATGTGGAAA GTTGATGATTATTGTATGGAGTGGCTTGACAAGCAAGCTAGGTCTTCAGTTGTTTACATATC TTTCGGAAGCATACTCAAATCATTGGAGAATCAAGTTGAGACCATAGCAACGGCATTAAAAA ACAGAGGAGTTCCATTTCTTTGGGTGATACGGCCGAAGGAGAAAGGCGAAAACGTCCAGGTT TTGCAGGAGATGGTTAAAGAAGGTAAAGGGGTTGTAACTGAATGGGGTCAACAAGAAAAGAT ATTGAGCCACATGGCGATTTCTTGCTTCATCACGCATTGTGGATGGAACTCGACGATCGAGA CGGTGGTGACTGGTGTTCCCGTGGTGGCGTATCCGACTTGGATAGATCAGCCGCTTGATGCG AGACTGCTTGTGGATGTGTTTGGAATCGGAGTAAGGATGAAGAACGACGCTATCGATGGAGA GCTTAAGGTTGCAGAGGTGGAGAGATGCATTGAGGCCGTGACAGAGGGACCTGCCGCCGCGG ATATGAGGAGGAGAGCGACGGAGCTGAAGCACGCCGCAAGATCGGCGATGTCACCTGGTGGA TCTTCCGCTCAGAATTTAGACTCGTTCATTAGTGATATCCCAATCACTTGA
>UGT85A1
ATGGGATCTCAGATCATTCATAACTCACAAAAACCACATGTAGTTTGTGTTCCATATCCGGC
TCAAGGCCACATCAACCCTATGATGAGAGTGGCTAAACTCCTCCACGCCAGAGGCTTCTACG
TCACCTTCGTCAACACCGTCTACAACCACAATCGTTTCCTTCGTTCTCGTGGGTCCAATGCC
CTAGATGGACTTCCTTCGTTCCGATTTGAGTCCATTGCTGACGGTCTACCAGAGACAGACAT
GGATGCCACGCAGGACATCACAGCTCTTTGCGAGTCCACCATGAAGAACTGTCTCGCTCCGT
TCAGAGAGCTTCTCCAGCGGATCAACGCTGGAGATAATGTTCCTCCGGTAAGCTGTATTGTA
TCTGACGGTTGTATGAGCTTTACTCTTGATGTTGCGGAGGAGCTTGGAGTCCCGGAGGTTCT
TTTTTGGACAACCAGTGGCTGTGCGTTCCTGGCTTATCTACACTTTTATCTCTTCATCGAGA
AGGGCTTATGTCCGCTAAAAGATGAGAGTTACTTGACGAAGGAGTACTTAGAAGACACGGTT
ATAGATTTTATACCAACCATGAAGAATGTGAAACTAAAGGATATTCCTAGCTTCATACGTAC
CACTAATCCTGATGATGTTATGATTAGTTTCGCCCTCCGCGAGACCGAGCGAGCCAAACGTG
CTTCTGCTATCATTCTAAACACATTTGATGACCTTGAGCATGATGTTGTTCATGCTATGCAA
TCTATCTTACCTCCGGTTTATTCAGTTGGACCGCTTCATCTCTTAGCAAACCGGGAGATTGA
AGAAGGTAGTGAGATTGGAATGATGAGTTCGAATTTATGGAAAGAGGAGATGGAGTGTTTGG
ATTGGCTTGATACTAAGACTCAAAATAGTGTCATTTATATCAACTTTGGGAGCATAACGGTT
TTGAGTGTGAAGCAGCTTGTGGAGTTTGCTTGGGGTTTGGCGGGAAGTGGGAAAGAGTTTTT ATGGGTGATCCGGCCAGATTTAGTAGCGGGAGAGGAGGCTATGGTTCCGCCGGACTTTTTAA TGGAGACTAAAGACCGCAGTATGCTAGCGAGTTGGTGTCCTCAAGAGAAAGTACTTTCTCAT CCTGCTATTGGAGGGTTTTTGACGCATTGCGGGTGGAACTCGATATTGGAAAGTCTTTCGTG TGGAGTTCCGATGGTGTGTTGGCCATTTTTTGCTGACCAGCAAATGAATTGTAAGTTTTGTT GTGACGAGTGGGATGTTGGGATTGAGATAGGTGGAGATGTGAAGAGAGAGGAAGTTGAGGCG GTGGTTAGAGAGCTCATGGATGGAGAGAAGGGAAAGAAAATGAGAGAAAAGGCGGTAGAGTG GCAGCGCTTAGCCGAGAAAGCGACGGAACATAAACTTGGTTCTTCCGTTATGAATTTTGAGA CGGTTGTTAGCAAGTTTCTTTTGGGACAAAAATCACAGGATTAA
>UGT85A2
ATGGGATCTCATGTCGCACAAAAACAACACGTAGTTTGCGTTCCTTATCCGGCTCAAGGCCA CATCAACCCAATGATGAAAGTGGCTAAACTCCTTTACGCCAAAGGCTTCCATATTACCTTCG TCAACACCGTCTACAACCACAACCGTCTCCTCCGGTCCCGTGGGCCTAACGCCGTTGACGGG CTTCCTTCTTTCCGGTTTGAGTCCATCCCTGACGGTCTACCCGAGACTGACGTGGACGTCAC TCAGGACATCCCTACTCTTTGCGAGTCCACAATGAAGCACTGTCTCGCTCCATTCAAGGAGC TTCTCCGGCAGATCAACGCAAGGGATGATGTTCCTCCTGTGAGCTGTATCGTATCCGACGGT TGTATGAGCTTCACACTTGATGCTGCGGAGGAGCTCGGTGTCCCGGAGGTTCTTTTTTGGAC AACTAGTGCTTGTGGCTTCTTGGCTTACCTTTACTACTATCGCTTCATCGAGAAGGGATTAT CACCAATAAAAGATGAGAGTTACTTAACCAAGGAACACTTGGACACAAAAATAGACTGGATA CCATCGATGAAGAACCTAAGACTAAAAGACATCCCTAGCTTCATCCGAACGACTAATCCTGA CGACATCATGCTCAACTTTATCATCCGTGAGGCTGACCGAGCCAΆACGCGCTTCAGCTATCA TTCTCAACACGTTTGATGATCTCGAACACGACGTTATCCAATCTATGAAATCCATTGTACCT CCGGTTTATTCTATTGGACCGTTACATTTACTAGAGAAACAAGAGAGCGGCGAGTATAGTGA AATCGGACGGACAGGATCGAATCTTTGGAGAGAGGAGACTGAGTGTCTGGACTGGCTAAACA CGAAAGCTAGAAACAGTGTTGTGTACGTTAACTTCGGGAGTATAACTGTTTTGAGCGCAAAA CAGCTTGTGGAGTTTGCATGGGGTTTGGCTGCAACGGGGAAAGAGTTTTTGTGGGTGATCCG GCCGGATTTAGTAGCCGGGGATGAGGCAATGGTTCCACCGGAGTTTTTAACGGCTACGGCGG ACCGGAGGATGTTGGCAAGTTGGTGTCCTCAAGAGAAAGTCCTTTCTCATCCGGCCATTGGA GGGTTCTTGACGCATTGCGGGTGGAACTCGACGTTGGAAAGTCTATGCGGTGGAGTTCCAAT GGTGTGTTGGCCGTTTTTTGCAGAGCAACAAACTAATTGTAAGTTTTCTCGTGACGAATGGG AGGTTGGGATTGAGATTGGTGGAGATGTGAAGAGAGAAGAGGTTGAGGCGGTGGTTAGGGAG TTGATGGATGAAGAGAAGGGAAAGAATATGAGAGAGAAGGCGGAAGAGTGGCGGCGCTTGGC GAATGAAGCGACGGAGCATAAGCATGGTTCTTCTAAATTGAACTTTGAGATGCTCGTTAATA AGGTTCTTTTAGGGGAGTAG
>UGT85A3
ATGGGATCCCGTTTTGTTTCTAACGAACAAAAACCACACGTAGTTTGCGTGCCTTACCCAGC TCAAGGCCACATTAACCCTATGATGAAAGTGGCTAAACTCCTCCACGTCAAAGGCTTCCACG TCACCTTCGTCAACACCGTCTACAACCACAACCGTCTACTCCGATCCCGTGGGGCCAACGCA CTCGATGGACTTCCTTCCTTCCAGTTCGAGTCAATACCTGACGGTCTTCCGGAGACTGGCGT GGACGCCACGCAGGACATCCCTGCCCTTTCCGAGTCCACAACGAAΆAACTGTCTCGTTCCGT TCAAGAAGCTTCTCCAGCGGATTGTCACGAGAGAGGATGTCCCTCCGGTGAGCTGTATTGTA TCAGATGGTTCGATGAGCTTTACTCTTGACGTAGCGGAAGAGCTTGGTGTTCCGGAGATTCA TTTTTGGACCACTAGTGCTTGTGGCTTCATGGCTTATCTACACTTTTATCTCTTCATCGAGA AGGGTTTATGTCCAGTAAAAGATGCGAGTTGCTTGACGAAGGAATACTTGGACACAGTTATA GATTGGATACCGTCAATGAACAATGTAAAACTAAAAGACATTCCTAGTTTTATACGTACCAC TAATCCTAACGACATAATGCTCAACTTCGTTGTCCGTGAGGCATGTCGAACCAAACGTGCCT CTGCTATCATTCTGAACACGTTTGATGACCTTGAACATGACATAATCCAGTCTATGCAATCC ATTTTACCACCGGTTTATCCAATCGGACCGCTTCATCTCTTAGTAAACAGGGAGATTGAAGA AGATAGTGAGATTGGAAGGATGGGATCAAATCTATGGAAAGAGGAGACTGAGTGCTTGGGAT GGCTTAATACTAAGTCTCGAAATAGCGTTGTTTATGTTAACTTTGGGAGCATAACAATAATG ACCACGGCACAGCTTTTGGAGTTTGCTTGGGGTTTGGCGGCAACGGGAAAGGAGTTTCTATG GGTGATGCGGCCGGATTCAGTAGCCGGAGAGGAGGCAGTGATTCCAAAAGAGTTTTTAGCGG AGACAGCTGATCGAAGAATGCTGACAAGTTGGTGTCCTCAGGAGAAAGTTCTTTCTCATCCG GCGGTCGGAGGGTTCTTGACCCATTGCGGGTGGAATTCGACGTTAGAAAGTCTTTCATGCGG AGTTCCAATGGTATGTTGGCCATTTTTTGCTGAGCAACAAACAAATTGTAAGTTTTCTTGTG ATGAATGGGAGGTTGGTATTGAGATCGGTGGAGATGTCAAGAGGGGAGAGGTTGAGGCGGTG GTTAGAGAGCTCATGGATGGAGAGAAAGGAAAGAAAATGAGAGAGAAGGCTGTAGAGTGGCG GCGCTTGGCCGAGAAAGCTACAAAGCTTCCGTGTGGTTCGTCGGTGATAAATTTTGAGACGA TTGTCAACAAGGTTCTCTTGGGAAAGATCCCTAACACGTAA
>UGT85A4
ATGGAACAACATGGCGGTTCTAGCTCACAGAAACCTCACGCAATGTGCATACCTTATCCAGC ACAAGGCCACATCAACCCAATGCTGAAACTAGCCAAGCTCCTCCACGCTAGAGGCTTCCACG TCACTTTCGTCAΆCACCGACTACAACCACCGCCGTATCCTCCAATCACGTGGCCCTCACGCT CTCAACGGTCTCCCCTCGTTTCGCTTCGAGACTATCCCCGACGGTCTTCCTTGGACAGACGT CGACGCTAAGCAAGACATGCTCAAGCTTATTGACTCCACAATAAACAACTGTTTAGCTCCAT TCAAΆGACCTCATCCTCCGGTTAAΆCTCCGGTTCTGATATACCACCGGTTAGCTGTATCATC TCCGACGCTTCAATGAGCTTCACAATTGACGCAGCGGAGGAGCTTAAAATTCCGGTAGTTCT CCTCTGGACCAACAGTGCTACTGCTTTAATCTTGTATCTCCATTACCAΆAAACTCATCGAGA AAGAGATAATTCCCCTCAAAGATTCGAGTGACTTGAAGAAGCATTTAGAGACGGAGATTGAT TGGATACCGTCGATGAAGAAGATTAAGCTTAAGGATTTTCCAGATTTCGTCACCACGACGAA TCCTCAAGATCCGATGATTAGTTTCATCCTTCATGTAACCGGAAGAATCAAAAGAGCTTCTG CGATCTTCATCAACACTTTCGAAAAACTCGAGCATAACGTTCTCTTATCTCTGCGATCTCTT CTCCCTCAGATCTACTCCGTTGGACCGTTCCAGATTCTGGAGAATCGCGAAATCGATAAGAA CAGCGAAATCAGAAAGCTAGGATTGAATCTCTGGGAAGAAGAGACGGAGTCTTTGGATTGGC TAGATACTAAAGCTGAGAAAGCTGTGATTTACGTCAACTTCGGGAGTCTAACGGTTTTGACT AGTGAGCAGATCTTAGAGTTCGCTTGGGGTTTAGCGAGGAGCGGGAAAGAGTTTCTCTGGGT GGTGAGATCTGGTATGGTCGACGGAGATGATTCGATTCTTCCGGCGGAGTTTTTATCGGAGA CGAAGAATCGAGGAATGTTAATTAAAGGATGGTGTTCTCAGGAGAAGGTACTTTCGCATCCG GCGATTGGAGGATTTTTGACTCACTGTGGATGGAATTCGACGTTGGAGAGTTTGTACGCCGG TGTTCCGATGATCTGTTGGCCATTTTTTGCTGATCAGTTGACGAATCGAAAGTTCTGTTGCG AGGATTGGGGGATTGGGATGGAGATCGGCGAGGAGGTGAAGAGGGAGAGAGTGGAGACGGTG GTTAAAGAGCTCATGGACGGAGAGAAGGGAAAGAGGTTAAGAGAGAAGGTGGTGGAGTGGCG GCGCTTGGCGGAAGAAGCTTCGGCGCCACCGTTGGGATCATCGTACGTGAATTTTGAAACGG TGGTTAATAAAGTCCTTACATGTCACACGATTAGATCGACCTAA
>UGT85A5
ATGGCGTCTCATGCTGTTACAAGCGGACAAAAACCACACGTAGTTTGCATACCTTTCCCGGC TCAAGGCCACATCAATCCGATGCTCAAAGTGGCTAAACTCCTCTATGCCAGAGGCTTCCATG TTACCTTCGTCAACACTAACTACAACCATAACCGTCTCATCCGGTCACGTGGTCCCAACTCC CTTGATGGGCTTCCTTCTTTTCGGTTCGAGTCCATCCCTGACGGTCTACCGGAGGAAAΆCAA GGACGTCATGCAGGATGTCCCTACCCTTTGTGAGTCCACCATGAAAAACTGTCTAGCTCCTT TCAAGGAGCTTCTCCGGCGGATCAACACCACAAAGGATGTTCCTCCGGTAAGCTGTATTGTA TCCGACGGTGTGATGAGCTTTACTCTTGATGCTGCAGAGGAGCTTGGAGTCCCGGATGTTCT TTTTTGGACACCAAGTGCTTGTGGCTTCTTGGCTTATCTACACTTCTATCGCTTCATCGAGA AGGGGTTATCACCAATAAAAGATGAAAGTTCTTTGGACACAAAAATAAATTGGATACCATCG ATGAAAAACCTAGGACTTAAAGACATCCCAAGCTTTATCCGTGCAACTAATACTGAAGACAT AATGCTTAACTTTTTTGTCCATGAGGCTGACCGAGCCAAACGCGCTTCCGCTATCATTCTCA ACACATTCGATAGTCTTGAGCATGATGTCGTCCGTTCTATTCAATCTATCATACCTCAAGTG TACACTATTGGACCGCTTCATCTATTTGTGAATCGGGATATCGACGAGGAAAGTGACATCGG ACAGATAGGAACGAATATGTGGAGAGAGGAGATGGAGTGTTTGGATTGGCTTGATACTAAGT CTCCAAACAGTGTCGTTTATGTTAATTTCGGTAGCATAACAGTGATGAGTGCGAAACAACTC GTGGAGTTTGCTTGGGGTTTAGCAGCGACCAAAAAAGATTTTTTGTGGGTGATTAGGCCGGA TTTAGTAGCCGGTGATGTGCCAATGCTTCCGCCGGACTTTCTAATAGAGACGGCTAACCGAA GGATGCTAGCGAGTTGGTGTCCTCAAGAAAAΆGTTCTTTCTCATCCGGCAGTTGGAGGGTTC TTAACGCATAGTGGATGGAATTCGACTTTGGAGAGTCTCTCCGGTGGAGTTCCAATGGTGTG TTGGCCGTTCTTTGCGGAACAGCAAACAAATTGTAAATATTGTTGTGATGAATGGGAAGTGG GGATGGAGATCGGTGGAGATGTGAGGAGGGAGGAGGTTGAGGAGTTGGTTAGAGAACTCATG GACGGAGACAAAGGAAAGAAAATGAGGCAAAAGGCCGAAGAGTGGCAGCGCTTGGCTGAGGA AGCGACGAAGCCTATTTATGGTTCGTCGGAACTAAATTTTCAGATGGTCGTTGACAAGGTTC TTTTAGGGGAGTAG >UGT85A7
ATGGAATCTCATGTTGTTCATAACGCACAAAAGCCACACGTAGTTTGCGTGCCTTACCCGGC TCAAGGCCACATCAATCCGATGCTGAAAGTGGCTAAACTCCTCTACGCTAAAGGCTTTCACG TCACCTTCGTTAACACTCTCTACAACCACAACCGTCTCCTCCGGTCCCGTGGTCCCAACGCG CTCGACGGGTTTCCTTCATTCCGGTTCGAGTCCATCCCTGACGGTCTACCGGAGACTGATGG CGATAGGACGCAGCATACTCCTACCGTTTGCATGTCCATTGAGAAAAΆCTGTCTCGCTCCAT TCAAAGAGATTCTGCGCCGGATCAACGATAAAGATGATGTTCCTCCAGTGAGTTGTATTGTA TCGGACGGTGTGATGAGTTTTACTCTTGACGCAGCCGAGGAACTAGGTGTCCCAGAGGTTAT TTTTTGGACCAATAGTGCTTGTGGTTTCATGACTATTCTACACTTTTATCTTTTCATCGAGA AGGGTCTATCTCCTTTTAAAGACGAAAGTTACATGTCAAAGGAGCATCTAGACACAGTTATA GATTGGATACCATCAATGAAGAATCTTAGGTTAAAGGACATCCCTAGCTATATACGTACCAC AAATCCTGACAACATAATGCTTAATTTCCTCATTCGAGAAGTTGAGCGATCTAAACGCGCTA GTGCTATCATTCTCAACACGTTTGATGAACTCGAGCATGATGTTATCCAGTCTATGCAATCT ATTTTACCTCCGGTTTATTCTATTGGGCCACTCCATCTCCTTGTGAAGGAAGAAATAAACGA GGCTAGTGAAATAGGACAGATGGGATTAAATTTGTGGAGAGAGGAGATGGAATGTTTGGATT GGCTCGATACAAAAACTCCAAACAGTGTTCTTTTTGTTAACTTTGGATGCATAACGGTGATG AGTGCAAAACAGCTTGAAGAATTTGCTTGGGGTTTGGCGGCAAGTAGGAAAGAGTTTTTATG GGTGATCCGTCCTAATTTAGTGGTGGGAGAGGCGATGGTGGTTCTTCCACAAGAGTTTTTAG CGGAGACGATAGACCGGAGAATGTTAGCTAGTTGGTGTCCTCAGGAGAΆAGTTCTTTCTCAT CCCGCGATAGGAGGGTTCTTGACGCATTGCGGGTGGAACTCAACATTGGAGAGTCTCGCTGG TGGTGTTCCGATGATATGTTGGCCATGTTTTTCGGAGCAACCGAGGAATTGTAAGTTTTGTT GTGATGAGTGGGGAGTGGGTATAGAGATTGGTAAAGATGTGAAGAGAGAGGAGGTCGAGACG GTGGTTAGAGAACTTATGGATGGAGAAAAGGGGAAAAAGCTGAGAGAAAAGGCGGAAGAGTG GCGGCGGTTGGCCGAGGAAGCGACGAGGTATAAACATGGTTCGTCGGTCATGAATCTTGAGA CGCTTATACATAAAGTTTTCTTAGAAAATCTTAGATGA
>UGT86A1
ATGGAGAGAGCAAAGTCGAGGAAGCCTCATATCATGATGATACCATACCCACTTCAAGGTCA CGTTATCCCTTTTGTCCACTTAGCCATCAAACTTGCTTCTCATGGCTTCACCATCACTTTCG TCAACACCGACTCCATCCACCACCACATCTCCACCGCTCACCAAGATGACGCCGGTGACATC TTCTCCGCCGCTCGCAGCTCCGGCCAGCACGACATACGTTACACCACCGTGAGCGACGGCTT CCCTTTAGACTTTGACCGGTCACTGAACCATGACCAGTTTTTCGAAGGCATTCTCCACGTCT TCTCTGCCCACGTGGATGATCTCATCGCCAAACTCTCCCGCCGTGATGATCCTCCCGTGACT TGCTTGATCGCCGACACGTTTTATGTTTGGTCATCTATGATTTGCGACAAGCACAACCTTGT AAATGTCTCGTTTTGGACCGAACCTGCCTTGGTCCTCAATCTCTATTATCACATGGATCTCC TCATATCTAACGGTCATTTCAAATCTCTTGATAATCGTAAAGACGTGATCGATTACGTACCA GGGGTTAAAGCAATAGAACCAAAGGACTTGATGTCATATCTTCAAGTAAGCGACAAAGACGT AGACACAAATACAGTAGTATACAGAATATTATTCAAGGCCTTTAAAGACGTCAAGAGAGCCG ACTTCGTCGTATGCAACACGGTGCAAGAGCTCGAACCAGACTCTCTCTCGGCTCTACAAGCC AAACAACCGGTTTACGCTATCGGTCCGGTTTTCTCAACTGATTCGGTAGTTCCCACAAGCTT ATGGGCCGAGTCAGACTGTACCGAGTGGCTTAAGGGCCGGCCCACTGGGTCAGTTCTCTACG TCTCGTTTGGTAGCTATGCACATGTTGGTAAGAAGGAGATTGTTGAGATAGCTCATGGGCTT TTGCTTAGTGGGATTAGTTTCATTTGGGTTTTACGTCCGGATATAGTTGGATCCAACGTACC AGATTTTCTTCCAGCCGGGTTTGTGGACCAAGCCCAAGATCGAGGTCTTGTGGTCCAATGGT GCTGCCAGATGGAAGTTATTTCAAATCCGGCCGTGGGAGGGTTTTTCACACATTGTGGATGG AATTCAATTCTAGAGAGCGTTTGGTGTGGTTTGCCTTTGTTGTGTTATCCACTTTTGACAGA TCAGTTCACGAATAGGAAGCTTGTGGTCGATGATTGGTGCATTGGGATTAATCTTTGTGAGA AGAAGACAATCACAAGGGACCAAGTCTCAGCGAATGTTAAAAGATTGATGAATGGAGAAACT TCAAGTGAGCTAAGAAACAATGTTGAAAAGGTTAAACGTCATCTCAAAGATGCGGTTACAAC CGTTGGATCTTCGGAGACGAΆTTTTAACTTGTTTGTTAGTGAGGTCCGAAATAGAATAGAAA CTAAATTGTGTAATGTAAATGGACTAGAAATAAGTCCATCAAACTAA
>UGT86A2
ATGGCGGACGTTAGAAACCCTACAAAAAATCATCATGGTCATCATCATCTTCATGCTCTCTT
GATCCCATATCCATTTCAAGGGCATGTAAACCCATTTGTACACTTAGCCATCAAGCTCGCGT CACAGGGGATCACCGTCACTTTCGTCAACACTCATTACATCCACCACCAGATCACAAACGGC TCCGATGGAGATATTTTCGCTGGAGTTAGGTCAGAGTCTGGCCTTGACATAAGGTACGCGAC GGTTTCCGATGGTTTACCGGTCGGATTTGACCGGTCGTTGAACCATGACACGTACCAΆTCGT CGCTGTTGCACGTGTTCTATGCGCATGTGGAAGAGCTTGTGGCGAGTCTTGTTGGAGGAGAC GGCGGTGTGAATGTGATGATCGCCGACACATTCTTTGTTTGGCCGTCTGTGGTGGCTAGGAA GTTTGGTTTGGTTTGTGTCTCGTTTTGGACCGAAGCTGCTTTAGTATTTTCACTTTATTACC ATATGGATCTGCTTCGGATTCATGGCCATTTTGGTGCTCAAGAAACCCGCAGCGATCTAATC GACTACATTCCCGGAGTCGCCGCAATTAACCCAAAAGACACGGCGTCGTATCTTCAAGAAAC CGACACGTCATCAGTAGTTCATCAAATCATCTTCAAAGCATTCGAAGACGTGAAAAAAGTCG ATTTTGTACTCTGCAACACAATTCAGCAATTCGAAGACAAAACAATCAAAGCCCTAAACACA AAAATCCCATTTTACGCAATCGGACCAATCATACCATTCAATAACCAAACCGGTTCAGTCAC AACCTCACTCTGGTCTGAATCAGATTGTACACAATGGCTCAACACTAAACCAAAAAGCTCCG TACTTTATATCTCCTTTGGTAGTTACGCTCATGTCACAAAGAAGGATCTTGTTGAGATAGCT CACGGGATTTTGTTGAGTAAAGTTAATTTCGTTTGGGTGGTGAGACCAGACATTGTTAGTTC AGACGAAACCAATCCATTACCAGAAGGGTTTGAAACAGAAGCTGGAGATCGTGGGATTGTAA TACCATGGTGTTGTCAAΆTGACGGTTTTGTCACATGAGAGTGTTGGTGGGTTTTTGACACAT TGTGGTTGGAACTCGATATTGGAGACGATTTGGTGTGAGGTTCCTGTGTTGTGTTTTCCATT GTTGACTGATCAGGTTACGAATAGGAAGCTTGTGGTTGATGATTGGGAGATTGGGATTAATC TTTGTGAAGATAAGAGTGATTTTGGTAGAGATGAAGTTGGGAGGAATATTAACCGTTTGATG TGTGGTGTTTCGAAAGAGAAGATCGGACGGGTTAAAATGAGTTTGGAAGGTGCGGTGAGAAA CAGTGGATCTTCTTCGGAGATGAATTTAGGTTTGTTTATTGATGGACTTTTGTCTAAGGTTG GTTTATCTAATGGGAAAGCTTAA- »
>UGT87A1
ATGAATCCAATCAAACCTCAGCCACTCGGAGTCCGCCACGTGGTGGCCATGCCTTGGCCAGG AAGAGGCCACATCAACCCAATGTTAAΆCCTCTGCAAAAGCCTCGTCCGGCGAGACCCAAACC TCACCGTCACATTCGTCGTCACCGAAGAATGGCTCGGGTTCATCGGGTCCGACCCGAAACCT AACCGGATCCATTTCGCCACTCTCCCCAACATCATTCCCTCCGAGCTCGTCCGAGCCAACGA CTTCATCGCCTTCATCGACGCCGTCCTCACCAGATTAGAAGAGCCGTTCGAACAGCTACTTG ACCGTCTAAACTCTCCTCCCACCGCAATCATCGCCGATACTTACATCATTTGGGCAGTACGT GTAGGCACAAAΆAGGAATATTCCGGTGGCTTCTTTCTGGACTACGTCAGCCACGATTCTCTC CCTCTTCATTAACTCCGATCTTCTCGCAAGTCACGGCCATTTTCCGATCGAACCATCAGAAT CAAAACTAGACGAGATTGTTGATTACATCCCCGGTTTATCTCCGACAAGACTCAGTGACTTA CAGATCTTACACGGCTATAGTCATCAAGTCTTCAATATATTCAAAAAGTCTTTCGGTGAGCT TTATAAAGCTAAGTATCTTCTCTTCCCTTCTGCTTATGAGCTCGAACCAAAAGCCATTGACT TTTTCACTTCCAAGTTTGATTTCCCGGTTTACTCCACTGGTCCGTTAATACCCTTGGAAGAA CTATCCGTTGGAAATGAGAATAGAGAACTTGATTACTTTAAGTGGCTTGATGAGCAACCTGA AΆGCTCTGTTCTTTACATATCTCAAGGGAGTTTTCTTTCAGTCTCCGAAGCTCAGATGGAGG AGATTGTTGTAGGAGTTAGAGAGGCTGGAGTTAAGTTCTTTTGGGTGGCTCGTGGGGGTGAG TTAAAGCTTAAGGAGGCTCTTGAAGGTAGCTTGGGTGTTGTGGTGAGCTGGTGTGATCAGCT ACGTGTTTTGTGTCATGCGGCTATAGGCGGGTTTTGGACGCATTGCGGGTATAACTCGACAT TGGAAGGGATATGTTCGGGAGTACCGTTGCTTACATTTCCTGTTTTTTGGGATCAGTTT'CTG AATGCTAAGATGATTGTTGAGGAGTGGAGAGTTGGAATGGGGATCGAGAGGAAGAAGCAGAT GGAGTTGTTGATAGTGAGTGATGAGATCAAGGAATTGGTAAAAAGGTTTATGGATGGAGAGA GTGAAGAAGGGAAAGAGATGAGAAGAAGGACTTGTGATCTCAGTGAGATATGTCGTGGAGCG GTTGCGAAAGGTGGTTCTTCTGATGCTAACATCGATGCTTTCATTAAAGATATTACTAAGAT
CGTGTGA
>UGT87A2
ATGGATCCAAATGAATCTCCACCAAACCAATTTCGCCACGTGGTGGCCATGCCTTATCCAGG
TCGAGGACACATCAACCCTATGATGAACCTCTGCAAACGCCTTGTCCGTCGATACCCTAACC
TTCACGTCACCTTCGTCGTCACAGAAGAATGGCTCGGGTTTATTGGACCCGACCCGAAACCC
GACCGGATCCATTTCTCCACTCTCCCTAATCTCATCCCTTCCGAGCTTGTCAGGGCCAAAGA
CTTCATAGGCTTCATTGATGCCGTCTACACAAGATTGGAAGAACCATTCGAGAAGCTTCTTG
ACAGCCTCAATTCACCACCTCCGAGTGTAATATTCGCCGACACTTACGTCATTTGGGCTGTG
CGAGTCGGCAGAAAAAGGAATATTCCGGTGGTTTCTCTCTGGACCATGTCAGCCACGATTCT CTCCTTCTTCCTCCACTCTGATCTACTCATAAGTCATGGCCATGCTCTGTTCGAACCATCAG AAGAAGAGGTTGTTGATTACGTCCCCGGTTTATCTCCGACGAAACTCCGAGATTTGCCGCCG ATATTTGACGGTTACAGCGACCGAGTCTTCAAGACAGCTAAGTTGTGTTTCGATGAACTACC AGGAGCTAGGTCTTTACTCTTCACCACCGCCTATGAGCTTGAACACAAAGCTATTGACGCTT TCACCTCCAAGCTCGATATCCCGGTCTACGCTATTGGTCCTTTAATACCTTTTGAAGAACTT TCTGTTCAAAATGATAACAAGGAACCTAATTACATCCAGTGGCTTGAGGAACAACCGGAAGG CTCTGTTCTTTACATATCTCAGGGAAGTTTTCTTTCGGTCTCGGAAGCTCAGATGGAGGAAA TAGTGAAAGGACTGAGAGAAAGTGGAGTCCGGTTTCTTTGGGTGGCTCGTGGGGGCGAGTTA AAGCTTAAGGAGGCTCTTGAAGGTAGCTTAGGTGTAGTGGTGAGCTGGTGTGATCAGCTTCG GGTGCTGTGTCACAAAGCTGTAGGCGGGTTTTGGACTCATTGCGGGTTTAACTCGACATTGG AAGGGATATATTCAGGAGTACCAATGCTAGCGTTTCCGTTGTTTTGGGATCAGATTCTGAAC GCTAAGATGATTGTTGAGGACTGGAGAGTCGGAATGAGGATCGAGAGGACGAAAAAGAATGA GTTGTTGATAGGGAGAGAGGAGATCAAGGAAGTAGTGAAGAGGTTTATGGATAGAGAGAGTG AAGAAGGGAAAGAGATGAGAAGAAGGGCTTGTGACCTTAGTGAAATCAGTCGAGGAGCTGTT GCGAAAAGCGGTTCGTCTAATGTAAACATCGATGAGTTCGTTCGGCATATTACCAATACAAA TTAA
>UGT88A1
ATGGGTGAAGAAGCTATAGTTCTGTATCCTGCACCACCAATAGGTCACTTAGTGTCCATGGT ',TGAGTTAGGTAAAACCATCCTCTCCAAAAACCCATCTCTCTCCATCCACATTATCTTAGTTC
CACCGCCTTATCAGCCGGAATCAACCGCCACTTACATCTCCTCCGTCTCCTCCTCCTTCCCT TCAATAACCTTCCACCATCTTCCCGCCGTCACACCGTACTCCTCCTCCTCCACCTCTCGCCA CCACCACGAATCTCTCCTCCTAGAGATCCTCTGTTTTAGCAACCCAAGTGTCCACCGAACTC TTTTCTCACTCTCTCGGAATTTCAATGTCCGAGCAATGATCATCGATTTCTTCTGCACCGCC GTTTTAGACATCACCGCTGACTTCACGTTCCCGGTTTACTTCTTCTACACCTCTGGAGCCGC ATGTCTCGCCTTTTCCTTCTATCTCCCGACCATCGACGAAACAACCCCCGGAAAAAACCTCA AAGACATTCCTACAGTTCATATCCCCGGCGTTCCTCCGATGAAGGGCTCCGATATGCCTAAG GCGGTGCTCGAACGAGACGATGAGGTCTACGATGTTTTTATAATGTTCGGTAAACAGCTCTC GAAGTCGTCAGGGATTATTATCAATACGTTTGATGCTTTAGAAAACAGAGCCATCAAGGCCA TAACAGAGGAGCTCTGTTTTCGCAATATTTATCCAATTGGACCGCTCATTGTAAACGGAAGA ATCGAAGATAGAAACGACAACAAGGCAGTTTCTTGTCTCAATTGGCTGGATTCGCAGCCGGA AAAGAGTGTTGTGTTTCTCTGTTTTGGAAGCTTAGGTTTGTTCTCAAAAGAACAGGTGATAG AGATTGCTGTTGGTTTAGAGAAAAGTGGGCAGAGATTCTTGTGGGTGGTCCGTAATCCACCC GAGTTAGAAAAGACAGAACTGGATTTGAAATCACTCTTACCAGAΆGGATTCTTAAGCCGAAC CGAAGACAAAGGGATGGTCGTGAAATCATGGGCTCCGCAAGTTCCGGTTCTGAATCATAAAG CAGTCGGGGGATTCGTCACTCATTGCGGTTGGAATTCAATTCTTGAAGCTGTTTGTGCTGGT GTGCCGATGGTGGCTTGGCCGTTGTACGCTGAGCAGAGGTTTAATAGAGTGATGATTGTGGA TGAGATCAAGATTGCGATTTCGATGAATGAATCAGAGACGGGTTTCGTGAGCTCTACAGAGG TGGAGAAACGAGTCCAAGAGATAATTGGGGAGTGTCCGGTTAGGGAGCGAACCATGGCTATG AAGAACGCAGCCGAATTAGCCTTGACAGAAACTGGTTCGTCTCATACCGCATTAACTACTTT ACTCCAGTCGTGGAGCCCAAAGTGA
>UGT89A2
ATGACGGAAGTGTTATTGTTGCCGGGAACTAAATCGGAGAATTCAAAACCACCGCACATAGT GGTGTTTCCATTCCCAGCACAAGGCCACTTACTTCCTCTACTTGACTTAACTCACCAACTCT GCCTCCGTGGATTCAACGTCTCCGTCATCGTTACTCCCGGTAACCTTACTTACCTCTCTCCT CTTCTCTCCGCTCATCCCTCCTCCGTCACCTCCGTCGTTTTCCCTTTCCCTCCTCATCCTTC ACTCTCTCCCGGCGTCGAAAACGTTAAAGACGTCGGAAATTCAGGAAATCTCCCGATCATGG CTTCTCTTCGTCAGCTACGAGAACCAATCATCAACTGGTTCCAATCTCATCCGAATCCGCCT ATCGCTCTCATCTCCGATTTCTTCCTCGGATGGACTCACGATCTCTGCAATCAAATCGGTAT CCCCAGATTCGCTTTCTTCTCCATCAGCTTCTTCTTAGTTTCCGTTCTTCAATTTTGCTTCG AGAACATCGATCTAΆTCAΆATCAACGGATCCGATTCATCTCCTTGATCTTCCTCGCGCTCCG ATTTTCAAAGAAGAGCATCTTCCGTCTATAGTCCGACGAAGTCTCCAAACTCCGTCACCGGA TCTCGAATCAATCAAAGATTTCTCCATGAATTTGTTGAGCTACGGATCTGTTTTCAATTCTT CTGAGATTCTGGAAGATGATTATCTTCAGTACGTGAAACAGAGGATGGGTCATGATCGGGTT TATGTTATTGGCCCGCTTTGTTCAATCGGGTCGGGTCTTAAATCGAATTCGGGTTCTGTAGA CCCGAGTTTGCTGAGTTGGTTAGACGGATCCCCAAACGGGTCAGTTCTATACGTTTGTTTCG GAAGTCAAAAGGCGTTGACTAAAGACCAGTGTGATGCTTTGGCTCTAGGCTTAGAGAAAAGC ATGACCCGGTTTGT'TTGGGTGGTTAAGAAAGATCCGATACCCGACGGGTTTGAGGATCGGGT TTCCGGAAGGGGATTGGTGGTAAGAGGATGGGTCTCCCAGCTGGCGGTGTTGCGACACGTGG CGGTTGGTGGATTTTTGAGCCATTGTGGATGGAACTCAGTGCTTGAAGGGATAACGAGTGGG GCTGTGATCTTGGGCTGGCCCATGGAGGCGGACCAGTTTGTGAACGCGAGGTTGCTTGTGGA GCATTTGGGTGTTGCGGTTAGGGTTTGCGAAGGTGGTGAAACTGTGCCTGACTCGGATGAGT TGGGTCGGGTCATAGCGGAAACGATGGGTGAGGGAGGACGCGAGGTGGCTGCTCGGGCTGAG GAGATACGGCGGAAGACCGAGGCTGCCGTGACGGAGGCAAATGGAAGCTCCGTTGAAAATGT ACAAAGACTTGTCAAAGAATTTGAAAAAGTCTAA
>UGT89B1
ATGAAAGTGAACGAGGAAAACAACAAGCCGACAAAGACCCATGTCTTAATCTTCCCATTTCC GGCGCAAGGTCACATGATTCCCCTCCTCGACTTCACCCACCGCCTTGCTCTCCGCGGCGGCG CCGCCTTAAAAATAACCGTCCTAGTCACTCCAAAAAACCTTCCTTTTCTCTCTCCGCTTCTC TCCGCCGTAGTTAACATCGAACCACTTATCCTCCCTTTTCCCTCCCACCCTTCAΆTCCCCTC CGGCGTCGAAAACGTCCAAGACTTACCTCCTTCAGGCTTCCCTTTAATGATCCACGCGCTTG GTAATCTCCACGCGCCGCTTATCTCTTGGATTACTTCTCACCCTTCTCCTCCAGTAGCCATC GTATCTGATTTCTTCCTTGGTTGGACCAAAAACCTCGGAATCCCTCGTTTCGATTTCTCTCC CTCCGCTGCTATCACTTGCTGCATACTCAATACTCTCTGGATCGAAATGCCCACCAAGATCA ACGAAGATGACGATAACGAGATCCTCCACTTTCCCAAGATCCCGAATTGTCCAAAATACCGT TTTGATCAGATCTCCTCTCTTTACAGAAGTTACGTTCACGGAGATCCAGCTTGGGAGTTCAT AAGAGACTCCTTTAGAGATAACGTGGCGAGTTGGGGACTCGTCGTGAACTCGTTCACCGCCA TGGAAGGTGTTTATCTCGAACATCTTAAGCGAGAGATGGGCCATGATCGTGTATGGGCTGTA GGCCCAATTATTCCGTTATCTGGGGATAACCGTGGTGGCCCGACTTCTGTTTCTGTTGATCA CGTGATGTCGTGGCTTGACGCACGTGAGGATAACCACGTGGTGTACGTGTGCTTTGGAAGTC AAGTAGTTTTGACTAAAGAGCAGACTCTTGCACTCGCCTCTGGGCTTGAGAAAAGCGGCGTC CATTTCATATGGGCCGTAAAGGAGCCCGTTGAGAAAGACTCAACACGTGGCAACATCCTGGA CGGTTTCGACGATCGCGTGGCTGGGAGAGGTCTGGTGATCAGAGGATGGGCTCCACAAGTAG CTGTGCTACGTCACCGAGCCGTTGGCGCGTTTTTAACGCACTGTGGTTGGAACTCTGTGGTG GAGGCGGTTGTCGCCGGCGTTTTGATGCTGACGTGGCCGATGAGAGCTGACCAGTACACTGA CGCGTCTCTGGTGGTTGATGAGTTGAAAGTAGGTGTGCGTGCTTGCGAAGGACCTGACACGG TGCCTGACCCGGACGAGTTAGCTCGAGTTTTCGCTGATTCCGTGACCGGAAATCAAACGGAG AGGATCAAAGCCGTGGAGCTGAGGAAAGCAGCGTTGGATGCGATTCAAGAACGTGGGAGCTC AGTGAATGATTTAGATGGATTTATCCAACATGTCGTTAGTTTAGGACTAAACAAATGA
>UGT89C1
ATGACAACAACAACAACGAAGAAGCCGCACGTTCTGGTGATACCGTTTCCACAATCCGGTCA CATGGTTCCACATCTTGACCTCACGCATCAGATTCTTCTCCGTGGAGCCACCGTCACTGTCC TCGTCACACCCAAAAACTCTTCCTATCTCGATGCTCTCCGTTCTCTTCACTCCCCGGAACAC TTCAAAACCCTAATCCTTCCTTTTCCTTCTCACCCTTGTATACCTTCCGGTGTCGAATCTCT CCAGCAACTTCCTCTCGAAGCTATAGTTCACATGTTTGATGCTCTCTCTCGTCTCCACGACC CTCTCGTTGACTTTCTCAGCCGTCAACCACCGTCGGATCTCCCCGACGCCATCCTAGGAAGC TCATTTCTCAGCCCTTGGATTAACAAAGTAGCTGATGCTTTCTCTATTAAGTCCATTAGTTT CTTACCCATCAATGCTCATTCGATCTCCGTCATGTGGGCTCAAGAAGATAGAAGCTTCTTCA ACGATCTCGAGACTGCCACAACGGAAAGCTACGGGCTCGTCATCAACAGTTTCTACGACCTC GAGCCTGAGTTTGTAGAAACTGTTAAAACACGTTTCCTGAATCACCACCGTATATGGACCGT CGGACCGTTGCTCCCCTTTAAAGCTGGCGTTGACCGTGGCGGACAAAGCTCAATCCCGCCGG CGAAAGTCTCGGCTTGGTTAGATTCGTGCCCCGAGGATAACTCCGTCGTATACGTCGGTTTT GGAAGCCAGATCCGGCTCACGGCGGAGCAAACAGCTGCTTTAGCGGCGGCGTTGGAGAAAAG CAGTGTGCGTTTCATATGGGCGGTGAGAGACGCAGCTAAGAAGGTGAACTCCAGCGATAACT CCGTTGAGGAAGATGTGATCCCGGCGGGATTTGAAGAGAGAGTGAΆGGAGAAAGGACTCGTG ATAAGAGGATGGGCCCCACAAACTATGATTCTTGAGCATCGAGCCGTTGGATCTTACCTAAC TCATTTGGGTTGGGGTTCGGTTCTGGAAGGAATGGTCGGAGGAGTTATGTTGCTAGCGTGGC CGATGCAAGCAGACCATTTCTTTAACACGACGCTCATCGTTGATAAACTAAGAGCCGCAGTG CGAGTTGGAGAGAACAGAGACTCGGTTCCTGACTCGGACAAGCTCGCTAGGATTTTGGCTGA GTCGGCGAGAGAGGACTTGCCGGAGAGAGTTACGTTGATGAAGCTGAGGGAGAAAGCTATGG AGGCCATTAAAGAAGGTGGGAGCTCTTACAAGAACTTGGATGAGCTCGTTGCAGAGATGTGT TTGTAA
>UGT9OA1
ATGTCCGTTTCAACACATCACCACCACGTGGTCCTCTTCCCTTTCATGTCAAAAGGCCACAT
CATCCCTCTCCTCCAATTCGGTCGTCTCCTCCTCCGTCACCACCGCAAAGAACCAACCATCA
CCGTCACCGTTTTCACCACTCCCAAGAACCAACCTTTCATCTCAGACTTCCTCTCGGATACG
CCGGAGATCAAAGTCATCTCTCTCCCTTTCCCGGAAAACATCACCGGAATCCCTCCCGGCGT
CGAGAACACCGAAAAGCTCCCATCCATGTCACTTTTCGTCCCCTTCACACGCGCCACGAAGC
TTCTCCAACCTTTCTTCGAAGAAACACTCAAGACTCTTCCAAAAGTTTCGTTCATGGTCTCT
GATGGATTCCTCTGGTGGACATCGGAGTCTGCAGCTAAGTTCAACATTCCAAGATTTGTCTC
CTACGGCATGAACTCTTACTCCGCCGCTGTCTCCATCTCTGTTTTCAAACACGAACTCTTTA
CCGAACCGGAAAGTAAATCTGATACCGAACCGGTCACTGTACCAGACTTTCCATGGATCAAG
GTCAAGAAGTGTGATTTCGACCATGGCACTACCGAGCCGGAAGAATCAGGTGCAGCCCTCGA
ACTATCTATGGACCAAATCAAGTCGACCACCACAAGCCATGGGTTTTTAGTCAATAGCTTCT
ACGAGCTCGAGTCAGCATTTGTTGATTACAACAACAACTCTGGTGATAAACCAAAGTCGTGG
TGTGTTGGGCCACTGTGTTTGACAGATCCTCCTAAACAGGGGAGTGCTAAACCGGCTTGGAT
TCATTGGTTGGATCAGAAGCGAGAGGAAGGGCGTCCGGTTTTGTACGTGGCGTTTGGAACGC
AGGCAGAGATATCGAACAAGCAGCTTATGGAACTAGCTTTCGGCTTGGAAGATTCAAAGGTG
AACTTTCTGTGGGTCACAAGAAAAGATGTGGAGGAGATTATTGGAGAAGGATTCAACGATAG
AATAAGAGAGAGTGGGATGATAGTGAGAGATTGGGTGGACCAATGGGAGATATTGTCACATG
AAAGTGTCAAAGGATTTTTGAGCCATTGTGGGTGGAACTCAGCACAAGAGAGCATATGTGTC
GGGGTCCCATTGTTGGCTTGGCCGATGATGGCCGAGCAACCGCTCAATGCGAAGATGGTTGT
GGAGGAGATAAAGGTGGGAGTAAGAGTTGAAACGGAAGATGGGAGTGTAAAAGGTTTTGTGA
CAAGAGAAGAACTAAGTGGAAAGATTAAAGAACTGATGGAAGGAGAAACGGGGAAAACCGCA
AGAAAGAATGTAAAAGAATATTCGAAAATGGCGAAAGCGGCTTTGGTCGAAGGGACTGGTTC
GTCATGGAAGAATTTAGATATGATTCTTAAGGAGTTATGTAAGAGTAGAGATTCAAACGGTG
CTAGTGAGTAG
>UGT90A2
ATGGAGTTAGAAAAAGTTCACGTGGTTTTGTTCCCATACTTGTCCAAAGGGCACATGATTCC
TATGCTCCAATTAGCTCGTCTCCTCTTATCCCACTCCTTCGCCGGAGACATCTCCGTCACCG
TCTTCACCACTCCTTTGAACCGTCCTTTCATCGTTGACTCACTCTCCGGCACCAAAGCGACC
ATCGTCGACGTACCTTTCCCTGATAACGTCCCGGAGATCCCACCCGGCGTCGAGTGCACTGA
CAAACTCCCTGCTTTGTCGTCCTCCCTCTTCGTTCCTTTCACAAGAGCCACCAAGTCAATGC
AGGCAGACTTTGAGCGAGAGCTCATGTCACTGCCACGTGTCAGTTTCATGGTCTCAGACGGT
TTCTTGTGGTGGACGCAAGAGTCAGCTCGAAAGCTAGGGTTTCCTCGGCTTGTTTTCTTTGG
TATGAATTGCGCTTCCACCGTTATATGTGACAGTGTTTTTCAAAACCAGCTTCTATCTAATG
TTAAGTCCGAGACGGAGCCAGTTTCTGTACCGGAGTTTCCGTGGATTAAGGTTAGGAAATGT
GATTTCGTTAAAGATATGTTTGATCCAAAAACCACCACAGATCCTGGATTCAAGCTTATCCT
AGATCAAGTCACGTCTATGAATCAAAGCCAAGGTATCATATTCAATACATTTGACGACCTTG
AACCCGTGTTTATTGATTTCTACAAGCGTAAACGCAAACTCAAGCTTTGGGCAGTTGGACCG
CTTTGTTACGTAAATAACTTGGCTTGGATGATGAAGTAGAAGAGAAGGTCAAACCTAGTTGG
ATGAAATGGCTAGATGAAAAGCGAGACAAGGGATGCAATGTTCTGTATGTGGCTTTCGGGTC
ACAAGCCGAGATCTCGAGAGAACAACTAGAGGAGATTGCGTTAGGGTTGGAAGAATCGAAGG
TGAACTTCTTGTGGGTGGTCAAAGGAAATGAAATAGGAAAAGGGTTTGAAGAGAGAGTGGGA
GAAAGAGGAATGATGGTGAGAGATGAATGGGTTGATCAGAGGAAGATATTAGAGCACGAGAG
TGTTAGAGGGTTCTTGAGCCATTGTGGGTGGAATTCTCTGACGGAGAGCATTTGCTCGGAGG
TTCCAATCTTGGCGTTTCCTTTAGCAGCGGAGCAACCTCTGAATGCGATTTTGGTGGTGGAA
GAGCTGAGAGTGGCGGAGAGAGTGGTGGCGGCGAGTGAAGGGGTTGTGAGAAGAGAAGAGAT
TGCAGAGAAAGTGAAGGAGTTGATGGAGGGAGAGAAAGGGAAAGAGCTGAGGAGGAATGTCG
AGGCATATGGTAAGATGGCGAAGAAGGCTTTGGAGGAAGGTATTGGTTCGTCTAGGAAGAAT
TTAGACAACCTTATCAACGAGTTTTGTAACAATGGAACATGA
>UGT90A4 ATGGCCGTTTCATCGTCGCATCATGCGGTTCTCTTCCCTTACATGTCAAAAGGCCACACGAT
TCCTCTCCTCCAATTCGCCCGTCTCCTCCTCCGTCACCGCCGTATCGTCTCCGTAGACGACG
AAGAACCAACCATTTCCGTCACCGTCTTCACCACCCCAAAAAACCAACCATTCGTCTCAAAC
TTCCTCTCTGACGTCGCATCATCTATCAAAGTAATCTCCCTCCCTTTCCCTGAAAACATCGC
CGGAATCCCTCCCGGCGTCGAGAGCACCGACATGCTCCCTTCCATATCACTTTACGTGCCCT
TCACGCGCGCAACCAAΆTCTCTCCAGCCTTTCTTCGAAGCAGAACTCAAGAATCTTGAGAAA
GTTTCTTTCATGGTCTCCGATGGATTCTTATGGTGGACATCGGAATCCGCCGCTAAATTTGA
GATCCCGAGACTTGCCTTCTACGGCATGAACTCCTACGCATCGGCTATGTGCTCCGCCATTT
CGGTACACGAGCTCTTTACCAAACCGGAAAGTGTTAAATCTGATACTGAACCGGTTACTGTA
CCGGATTTTCCATGGATATGTGTTAAGAAGTGTGAGTTCGATCCGGTTTTGACCGAACCGGA
TCAATCGGATCCAGCGTTCGAGCTACTCATTGACCATCTTATGTCCACCAAGAΆΆAGCCGTG
GAGTTATAGTGAACAGCTTTTACGAGCTCGAGTCAACGTTCGTTGACTACCGGCTCCGTGAT
AACGATGAACCAAAACCGTGGTGTGTTGGGCCTTTGTGTTTGGTAAATCCTCCAAAACCGGA
GAGTGATAAACCGGATTGGATTCATTGGTTGGACCGGAAΆCTAGAGGAAAGATGTCCGGTTA
TGTATGTGGCGTTTGGAACGCAGGCTGAGATATCGAACGAGCAGCTCAAGGAAATAGCATTA
GGGTTGGAAGATTCCAAGGTCAATTTCTTGTGGGTCACGAGAAAGGACTTGGAAGAAGTAAC
TGGAGGATTAGGGTTCGAAAAGAGAGTGAAAGAGCATGGGATGATTGTGAGAGATTGGGTAG
ACCAATGGGAGATATTGTCACATAAAAGTGTCAAAGGGTTTTTGAGTCATTGTGGATGGAAC
TCGGCGCAAGAGAGTATTTGCGCTGGGGTTCCACTACTCGCTTGGCCAATGATGGCAGAGCA'
GCCACTCAATGCGAAGTTGGTAGTGGAGGAGCTAAAGATCGGAGTAAGAATCGAAACAGAAG
ATGTAAGTGTGAAAGGATTCGTGACAAGAGAAGAACTTAGTCGAAAGGTTAAACAATTGATG
GAGGGAGAGATGGGGAAGACAACGATGAAGAATGTAAAAGAGTATGCGAAAATGGCGAAAΆA
AGCTATGGCTCAAGGGACTGGTTCGTCTTGGAAGAGTTTGGATTCGCTTCTGGAAGAGCTTT
GTAAGAGTAGAGAGCCAGACGGTGTTAATAAGTTGTCAAGTTCTGATGCTTAG
>UGT91A1
ATGACAAACTTCAAAGACAACGATGGAGATGGAACCAAACTCCACGTGGTAATGTTTCCATG GTTAGCCTTTGGTCACATGGTTCCATACTTGGAGCTCTCTAAACTCATAGCTCAAAAGGGTC ACAAAGTCTCTTTCATTTCCACTCCACGTAACATCGACCGTCTCCTCCCATGGTTACCGGAA AATCTCTCCTCCGTCATTAACTTCGTCAAGCTATCACTTCCCGTCGGCGACAACAAACTCCC GGAAGACGGTGAAGCTACCACAGACGTCCCTTTCGAACTCATACCTTACTTAAAΆATCGCTT ACGACGGGTTAAΆAGTTCCGGTGACGGAGTTTCTTGAATCTTCGAAACCCGATTGGGTTCTT CAAGATTTCGCGGGGTTTTGGCTTCCTCCAATCTCTCGTCGTCTCGGAATCAAAACCGGATT CTTTAGCGCTTTCAACGGCGCGACGCTCGGTATTCTTAAACCGCCGGGGTTCGAAGAGTACC GTACTTCGCCGGCGGATTTTATGAAGCCGCCTAAGTGGGTTCCGTTTGAAACTTCGGTAGCT TTCAAGTTATTTGAATGCAGGTTCATTTTCAAAGGATTTATGGCGGAAACCACCGAAGGGAA TGTTCCCGACATCCACCGTGTCGGCGGCGTAATTGACGGCTGTGACGTCATCTTCGTACGGA GCTGTTACGAGTATGAAGCGGAGTGGTTAGGACTTACACAAGAACTTCACCGGAAACCGGTT ATACCGGTCGGAGTTTTGCCTCCAAΆACCGGACGAAAAGTTTGAAGATACCGACACGTGGCT GTCTGTTAAAAAATGGTTGGACTCACGGAAAAGTAAGTCCATTGTCTACGTAGCTTTTGGTT CAGAΆGCTAAACCGAGTCAAACGGAGCTAAATGAGATCGCTCTCGGTTTAGAGCTTTCTGGT TTACCTTTCTTTTGGGTGTTAAAGACTCGTCGTGGTCCGTGGGATACCGAACCGGTCGAGCT TCCGGAAGGATTCGAAGAGCGTACAGCGGATAGAGGGATGGTGTGGAGAGGTTGGGTTGAGC AATTGCGTACATTGAGCCATGACTCGATCGGTTTGGTTCTGACTCATCCCGGTTGGGGAACG ATAATTGAAGCTATCCGGTTTGCTAAACCGATGGCAATGCTGGTTTTTGTGTATGACCAAGG ATTGAATGCGAGAGTCATTGAAGAGAAGAAAATTGGGTATATGATCCCTCGAGACGAGACAG AAGGTTTCTTTACTAAAGAAAGTGTTGCGAATTCGCTAAGATTGGTAATGGTGGAAGAAGAA GGAAAGGTTTATAGAGAGAATGTGAAGGAGATGAAAGGAGTGTTTGGAGATATGGATAGACA AGATCGTTATGTGGATTCATTCTTGGAATATCTTGTTACTAATCGTTAΆ
>UGT91B1
ATGGCCGAGCCAAAACCGAAGCTTCATGTTGCAGTGTTCCCATGGTTAGCTTTAGGTCACAT
GATTCCTTACTTGCAACTCTCAAAGCTCATAGCAAGGAAAGGCCATACTGTGTCCTTCATCT
CCACAGCTCGTAACATTTCACGTCTTCCCAATATATCCTCCGACCTTTCCGTGAATTTCGTT
TCTTTGCCGTTAAGTCAAACCGTCGACCATCTCCCAGAGAACGCTGAGGCCACCACTGATGT
CCCGGAGACTCACATAGCTTATCTGAAGAAAGCATTTGATGGGCTTTCTGAAGCTTTCACAG AGTTTTTAGAΆGCTTCCAAACCAAACTGGATAGTGTATGATATCTTGCACCATTGGGTCCCG CCTATCGCTGAGAAGCTCGGCGTGAGACGAGCCATCTTCTGCACGTTCAACGCAGCTTCCAT CATCATCATCGGTGGGCCAGCATCAGTCATGATTCAAGGTCATGACCCTCGAAAGACTGCTG AAGATCTTATCGTGCCTCCACCATGGGTCCCGTTTGAGACCAACATAGTTTACCGTCTCTTT GAAGCTAAGAGGATCATGGAGTATCCCACGGCAGGTGTAACTGGAGTTGAATTGAACGACAA CTGTAGATTGGGTTTGGCTTACGTTGGCTCTGAGGTTATTGTGATTAGATCATGTATGGAAC TCGAACCTGAGTGGATTCAATTGCTCAGTAAACTCCAAGGAAAGCCTGTGATTCCAATTGGT TTACTCCCGGCTACACCAATGGATGATGCAGATGACGAGGGAACATGGTTAGACATCAGAGA ATGGCTAGACAGACATCAAGCAAAGTCTGTGGTTTATGTAGCCTTAGGAACTGAAGTGACAA TTAGTAACGAAGAGATTCAAGGTTTAGCTCATGGGTTGGAGCTTTGCAGGTTACCTTTCTTT TGGACGCTAAGGAAGAGGACTAGAGCTTCTATGCTACTACCTGATGGGTTCAAAGAGAGAGT CAAAGAGCGTGGAGTCATTTGGACCGAGTGGGTACCTCAGACCAAGATACTGAGCCATGGTT CAGTTGGTGGGTTTGTTACTCATTGTGGTTGGGGATCAGCTGTGGAAGGGCTTAGCTTTGGT GTCCCTTTGATCATGTTTCCATGTAΆCCTAGACCAGCCGCTAGTGGCTAGGTTGCTCAGTGG GATGAATATAGGCTTGGAGATTCCAAGGAATGAGCGAGACGGGCTGTTCACGAGTGCTTCTG TTGCAGAGACAATCAGACATGTTGTTGTGGAAGAAGAAGGAAAGATCTACAGGAACAATGCT GCATCTCAGCAAAAGAAAATATTCGGGAACAAGAGATTGCAAGATCAGTATGCGGATGGTTT TATCGAGTTTCTGGAGAATCCTATAGCAGGAGTGTAG
>UGT91C1
ATGGTCGACAAGAGAGAAGAAGTTATGCACGTAGCCATGTTTCCATGGCTAGCTATGGGTCA TCTCCTTCCTTTTCTTCGTCTCTCCAAGTTACTAGCTCAAAAGGGTCACAAGATCTCTTTCA TATCAACACCAAGAAACATCGAAAGACTTCCTAAATTACAATCAAACCTCGCCTCCTCCATC ACCTTCGTCTCTTTCCCTCTCCCTCCCATCTCAGGCTTGCCTCCTTCTTCAGAATCATCCAT GGACGTTCCTTACAACAAGCAACAGTCTCTTAAAGCCGCTTTTGATCTTCTTCAGCCACCGT TGAAAGAGTTTCTCCGACGGTCTTCTCCGGATTGGATCATATACGACTATGCTTCTCACTGG CTTCCTTCTATTGCGGCCGAGCTTGGAATCTCTAΆGGCTTTCTTTAGTCTCTTTAACGCAGC TACTCTCTGTTTCATGGGACCGTCTTCGTCTTTGATTGAAGAAATTAGATCAACGCCGGAAG ATTTCACGGTGGTGCCACCGTGGGTCCCGTTCAAGTCAAACATCGTGTTTCGTTATCATGAA GTTACTAGATACGTTGAGAAGACAGAGGAAGATGTAACCGGAGTCTCTGACTCAGTTCGGTT TGGTTACTCGATTGACGAAAGCGATGCGGTTTTTGTCCGTAGCTGTCCGGAGTTTGAACCGG AATGGTTTGGTTTACTAAAAGACCTGTACCGTAAACCGGTATTTCCAATCGGGTTTTTGCCT CCGGTTATTGAAGACGACGATGCCGTTGATACTACATGGGTTCGTATAAAGAAGTGGCTCGA CAAGCAACGGCTTAATTCAGTTGTTTACGTGTCACTTGGCACCGAAGCGAGTCTTCGTCATG AGGAAGTAACTGAGCTAGCTCTTGGGTTAGAGAAGTCAGAGACACCGTTCTTTTGGGTCCTA AGGAACGAGCCAAAGATTCCAGATGGGTTCAAAACACGAGTCAAGGGACGTGGAATGGTTCA TGTTGGTTGGGTTCCACAAGTGAAAATACTTAGTCACGAGTCAGTAGGAGGGTTCTTGACAC ATTGTGGTTGGAACTCAGTGGTGGAAGGGTTAGGGTTTGGTAAAGTTCCAATCTTTTTTCCG GTGTTGAATGAGCAAGGACTTAATACGAGGTTGTTGCATGGGAAAGGACTTGGTGTTGAGGT TTCAAGAGATGAGAGAGATGGGTCGTTTGATTCTGACTCGGTCGCTGACTCGATTAGGTTGG TGATGATTGATGATGCTGGCGAGGAGATAAGGGCTAAGGCTAAAGTGATGAAGGATTTGTTT GGGAACATGGATGAGAATATTCGTTATGTTGACGAACTTGTTAGGTTTATGAGAAGTAAAGG ATCATCATCATCATCATGA
>UGT92A1
ATGGCGGAAGCTAAACCCAGAAATCTGAGAATCGTGATGTTCCCTTTCATGGGACAAGGCCA TATCATCCCGTTTGTAGCTTTAGCCCTTCGTTTAGAGAAGATTATGATTATGAACAGAGCCA ACAAAACCACCATCTCTATGATCAATACTCCTTCGAACATCCCCAAAATACGCTCCAATCTT CCACCTGAATCCTCCATAAGTCTCATAGAGTTACCTTTCAACAGCTCTGATCATGGCCTTCC TCACGACGGCGAGAATTTCGATTCTCTTCCTTACTCTCTCGTCATCAGCCTTCTTGAAGCTT CTAGGTCGCTTCGTGAGCCCTTTCGAGACTTCATGACGAAGATCTTGAAGGAAGAAGGGCAG AGCTCGGTTATAGTGATCGGTGATTTCTTCTTGGGTTGGATCGGTAAGGTTTGCAAAGAGGT TGGTGTTTATTCAGTGATCTTTAGTGCTTCTGGTGCTTTTGGTTTAGGTTGTTATAGATCCA TATGGTTAAACTTGCCACATAAAGAAΆCCAAACAAGATCAGTTTCTCTTAGATGATTTCCCT GAAGCAGGGGAGATTGAGAAAACTCAGTTGAATTCTTTCATGTTAGAAGCTGATGGAACCGA TGATTGGTCTGTTTTCATGAAGAAGATTATACCTGGATGGTCTGACTTCGATGGATTCTTGT TCAACACGGTTGCTGAAATCGATCAGATGGGATTATCCTACTTCCGTAGAATAACCGGTGTT CCGGTTTGGCCAGTTGGGCCGGTTTTGAAGTCTCCGGATAAGAAGGTGGGATCGAGGTCGAC AGAGGAAGCAGTGAAGTCATGGCTTGACTCAAAACCGGACCATTCGGTTGTGTACGTATGTT TCGGTTCAATGAACTCGATTTTGCAAACGCATATGTTAGAATTGGCTATGGCATTAGAGAGT AGCGAGAAGAACTTCATATGGGTGGTGAGGCCGCCCATAGGTGTGGAGGTGAAGAGTGAGTT TGATGTGAAAGGGTATCTACCGGAAGGATTTGAGGAAAGAATAACAAGATCGGAAAGAGGGT TACTTGTGAAGAAATGGGCACCACAAGTTGATATATTGTCACACAAGGCAACATGTGTGTTT TTGAGTCATTGCGGATGGAACTCGATACTCGAATCACTTAGCCACGGTGTGCCACTGCTCGG ATGGCCCATGGCAGCCGAGCAGTTCTTCAATTCCATATTGATGGAGAAACATATTGGGGTAT CGGTTGAGGTGGCGCGTGGGAAGAGATGTGAGATCAAATGTGATGACATTGTTTCTAAGATC AAACTGGTGATGGAGGAGACTGAAGTAGGGAAAGAGATTAGGAAGAAGGCTAGAGAGGTGAA GGAGTTAGTGAGGAGAGCAATGGTAGATGGAGTTAAAGGTTCCTCCGTCATTGGTTTGGAAG AGTTTCTTGACCAAGCAATGGTCAAGAAAGTGGAGAATTGA

Claims

Claims
1. A screening method to assay the activity of at least one glycosyltransfersase polypeptide comprising the steps of: i) providing a cell culture medium comprising a cell transfected or transformed with a nucleic acid molecule that encodes a glycosyltransferase polypeptide, or an enzymatically active fragment or variant thereof; and a test substrate for said glycosyltransferase; ii) separating said cell from the cell culture medium; and iii) detecting the presence of said glycoside substrate in said cell culture medium.
2. A method according to Claim 1 wherein said glycosyltransferase is selected from the group consisting of: glucosyltransferase; fucosyltransferase; sialyltransferase; galatosyltransferases rhamnosyltransferases; or mannosyltransferases.
3. A method according to Claim 1 or 2 wherein said glycosyltransferase is a plant glucosyltransferase.
4. A method according to Claim 3 wherein said nucleic acid molecule encodes a glucosyltransferase selected from the group consisting of: i) nucleic acid molecules consisting of a nucleic acid sequence as represented in Table 1; ii) nucleic acid molecules that hybridise under stringent hybridisation conditions to the nucleic acid molecules in (i) and which encode a polypeptide with glucosyltransferase activity; iii) a nucleic acid molecule that is degenerate as a result of the genetic code to the sequences as defined in (i) and (ii) above. 5. A method according to Claim 4 wherein said nucleic acid molecule consists of a nucleic acid sequence as represented in Table 1.
6. A method according to Claim 1 or 2 wherein said glycosyltransferase is a mammalian glycosyltransferase.
7. A method according to Claim 6 wherein said mammalian glycosyltransferase is human.
9. A method according to any of Claim 1-7 wherein said cell is a prokaryotic cell.
10. A method according to Claim 9 wherein said prokaryotic cell is Eschercheria coli.
11. A method according to any of Claims 1-7 wherein said cell is a eukaryotic cell.
12. A method according to Claim 11 wherein said eukaryotic cell is selected from the group consisting of: a yeast cell; an insect cell; a mammalian cell or a plant cell.
13. A method according to any of Claims 1-12 wherein said nucleic acid molecule is part of a vector adapted for the expression of said glycosyltransferase.
14. A method according to any of Claims 1-13 wherein said test substrate is selected from the group consisting of; other sugars, proteins, peptides, lipids and other organic substrates.
15. A method according to Claim 14 wherein said substrate is selected from the group consisting of: phenylpropanoid derivatives, coumarins, or flavonoids. 16. A method according to Claim 14 wherein said cell is further transformed or transfected with a nucleic acid molecule that encodes a polypeptide or peptide substrate for said glycosyltratisferase.
17. A method according to any of Claims 1-16 wherein said cell culture medium further includes a test agent wherein said agent is a potential modulator of said glycosyltransferase.
18. A method according to Claim 17 wherein said agent is an antagonist of said glycosyltransferase.
19. A method according to any of Claims 1-18 wherein the detection of said sugar is preceded by a cleavage step that removes said sugar moiety from said substrate prior to detection.
20. A method according to any of Claims 1-19 wherein said method comprises a plurality of glycosyltranferases.
21. A method according to any of Claims 1-20 wherein said assay further comprises the steps of: i) collating the signal generated during detection of said sugar from said plurality of glycosyltransferases; ii) converting the collated signals into a data analysable form; and optionally iii) providing an output for the analysed data.
22. A method according to any of Claims 1-21 wherein said cell culture medium includes an exogenous source of sugar. 23. An assay product comprising a plurality of glycosyltransferases for use in the method according to any of Claims 1-22.
24. An assay product according to Claim 23 wherein said assay product is a multi-well plate.
25. An assay product according to Claim 24 wherein said assay product comprises a cell array wherein each well of said multi-well plate comprises at least one cell transformed or transfected with at least one glycosyltransferase.
26. An assay product according to Claim 24 or 25 wherein each well further comprises assay enzyme reactants.
27. A kit comprising an assay product according to Claim 23.
28. A kit according to Claim 30 wherein said kit further comprises, a substrate, sugar detecting agents and buffers or co-factors.
PCT/GB2005/003324 2004-09-25 2005-08-25 Glycosyltransferase assay WO2006032838A1 (en)

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Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
WO2007034190A2 (en) * 2005-09-21 2007-03-29 The University Of York Regioselective glycosylation

Citations (5)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US5324663A (en) * 1990-02-14 1994-06-28 The Regents Of The University Of Michigan Methods and products for the synthesis of oligosaccharide structures on glycoproteins, glycolipids, or as free molecules, and for the isolation of cloned genetic sequences that determine these structures
WO2001068095A1 (en) * 1999-05-24 2001-09-20 Abaron Biosciences, Inc. Glycosyltransferase inhibitors
WO2002092845A2 (en) * 2001-05-09 2002-11-21 Jerini Ag Method for determining enzymatic activity of glycosyl transferase
US20030180718A1 (en) * 2001-10-24 2003-09-25 Renuka Pillutla Target specific screening and its use for identifying target binders
WO2003106688A1 (en) * 2002-06-18 2003-12-24 The University Of York Glucosyltransferases which clucosylate salicylic acid

Patent Citations (5)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US5324663A (en) * 1990-02-14 1994-06-28 The Regents Of The University Of Michigan Methods and products for the synthesis of oligosaccharide structures on glycoproteins, glycolipids, or as free molecules, and for the isolation of cloned genetic sequences that determine these structures
WO2001068095A1 (en) * 1999-05-24 2001-09-20 Abaron Biosciences, Inc. Glycosyltransferase inhibitors
WO2002092845A2 (en) * 2001-05-09 2002-11-21 Jerini Ag Method for determining enzymatic activity of glycosyl transferase
US20030180718A1 (en) * 2001-10-24 2003-09-25 Renuka Pillutla Target specific screening and its use for identifying target binders
WO2003106688A1 (en) * 2002-06-18 2003-12-24 The University Of York Glucosyltransferases which clucosylate salicylic acid

Non-Patent Citations (1)

* Cited by examiner, † Cited by third party
Title
WARZECHA^A^1 H ET AL: "Molecular cloning and functional bacterial expression of a plant glucosidase specifically involved in alkaloid biosynthesis", PHYTOCHEMISTRY, PERGAMON PRESS, GB, vol. 54, no. 7, August 2000 (2000-08-01), pages 657 - 666, XP004291541, ISSN: 0031-9422 *

Cited By (2)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
WO2007034190A2 (en) * 2005-09-21 2007-03-29 The University Of York Regioselective glycosylation
WO2007034190A3 (en) * 2005-09-21 2007-08-16 Univ York Regioselective glycosylation

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