CN1429841A - New human protein having mouse NIH/3T3 cell conversion promoting function and its code sequence - Google Patents

New human protein having mouse NIH/3T3 cell conversion promoting function and its code sequence Download PDF

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CN1429841A
CN1429841A CN 01145285 CN01145285A CN1429841A CN 1429841 A CN1429841 A CN 1429841A CN 01145285 CN01145285 CN 01145285 CN 01145285 A CN01145285 A CN 01145285A CN 1429841 A CN1429841 A CN 1429841A
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polypeptide
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CN1199997C (en
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顾健人
杨胜利
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SHANGHAI XINSHIJIE GENE TECHN DEVELOPMENT Co Ltd
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SHANGHAI XINSHIJIE GENE TECHN DEVELOPMENT Co Ltd
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Abstract

A novel human protein with the function of promoting mouse NIH/3T3 cell conversion, the polynucleotide for coding the polypeptide, the process for preparing the said polypeptide by recombination, the antagon of the said polypeptide and its medical action, and the application of said polynucleotide are disclosed.

Description

New people's albumen and encoding sequence thereof with promotion mouse NIH/3T3 cell transformation function
Technical field
The invention belongs to biological technical field, specifically, the present invention relates to new coding and have the proteic polynucleotide of people that promote 3T3 cell transformation function, and the polypeptide of this polynucleotide encoding.The invention still further relates to the purposes and the preparation of these polynucleotide and polypeptide.
Background technology
The research of people's gene group is international focus at present, removes human chromosome DNA large scale sequencing, outside the method for expressed sequence order-checking (EST), also lacks the screening that begins from function and has the high-throughout method of functional gene.
Cancer is one of principal disease of harm humans health.In order to treat effectively and prophylaxis of tumours, people more and more pay close attention to genetic treatment of tumor at present.Therefore, this area presses for development research people albumen and the agonist/inhibitor thereof relevant with growth of cancer cells.
Summary of the invention
The purpose of this invention is to provide people's protein polypeptide that new the having of a class promote 3T3 cell transformation function with and fragment, analogue and derivative.
Another object of the present invention provides the polynucleotide of these polypeptide of coding.
Another object of the present invention provides the method for these polypeptide of production and the purposes of this polypeptide and encoding sequence.
In a first aspect of the present invention, novel isolated protein polypeptide with promotion 3T3 cell transformation function is provided, it comprises the polypeptide of the aminoacid sequence with the group of being selected from down: SEQ ID NO:3,6,9,12,15,18; Or its conservative property variation polypeptide or its active fragments or its reactive derivative.
Preferably, this polypeptide is the polypeptide with aminoacid sequence of the group of being selected from down: SEQ ID NO:3,6,9,12,15,18.
In a second aspect of the present invention, a kind of isolating polynucleotide are provided, it comprises a nucleotide sequence, and this nucleotide sequence is shown at least 85% homogeny with a kind of nucleotides sequence that is selected from down group: the polynucleotide with the protein polypeptide that promotes 3T3 cell transformation function that (a) coding is above-mentioned; (b) with polynucleotide (a) complementary polynucleotide.Preferably, the polypeptide of this polynucleotide encoding has the aminoacid sequence of the group of being selected from down: SEQ ID NO:3,6,9,12,15,18.More preferably, the sequence of these polynucleotide is selected from down group: SEQ ID NO:2,5,8,11,14,17 coding region sequence or full length sequence.
In a third aspect of the present invention, the carrier that contains above-mentioned polynucleotide is provided, and has been transformed or host cell of transduceing or the host cell that is directly transformed or transduce by above-mentioned polynucleotide by this carrier.
In a fourth aspect of the present invention, provide preparation to have the preparation method of the polypeptide of the protein-active that promotes 3T3 cell transformation function, this method comprises: (a) being fit to express under the proteic condition with promotion 3T3 cell transformation function, cultivate the above-mentioned host cell that is transformed or transduce; (b) from culture, isolate polypeptide with the protein-active that promotes 3T3 cell transformation function.
In a fifth aspect of the present invention, provide and the above-mentioned protein polypeptide specificity bonded antibody that promotes 3T3 cell transformation function that has.The nucleic acid molecule that can be used for detecting also is provided, and it contains, and continuous 10 Nucleotide are to full length nucleotide in the above-mentioned polynucleotide, and preferably it contains the about 10-800 of a successive Nucleotide.
In a sixth aspect of the present invention, a kind of pharmaceutical composition is provided, it contains the protein polypeptide and the pharmaceutically acceptable carrier with promotion 3T3 cell transformation function of the present invention of safe and effective amount.These pharmaceutical compositions can be used for promoting the growth of cell.The present invention also provides a kind of pharmaceutical composition, it contain safe and effective amount at antagonist (as antibody) and the pharmaceutically acceptable carrier with the protein polypeptide that promotes 3T3 cell transformation function of the present invention.This pharmaceutical composition can be treated illnesss such as cancer and cellular abnormality propagation.
Others of the present invention are because disclosing of the technology of this paper is conspicuous to those skilled in the art.
Embodiment
The 3T3 cell is a kind of l cell (J.Cell.Biol., 17:299,1963) (being also referred to as the NIH/3T3 cell).In the cancer research field, often foreign gene (especially people's gene) is introduced the 3T3 cell, observe its situation that influences to the growth of 3T3 cell.It has been generally acknowledged that, to 3T3 cell growth (or vicious transformation or transfection) influential gene is cancer related gene, wherein to 3T3 cell growth or transform that inhibiting gene is arranged is cancer suppressor gene mostly, and to the growth of 3T3 cell or transform (former) oncogene that has the gene of promoter action to be mostly.
The present invention adopts large-scale cDNA clone transfection mouse embryo fibroblasts 3T3, has on the basis that promotes the growth effect in acquisition, proves new gene through order-checking, further obtains full length cDNA clone.DNA transfection evidence, the albumen with promotion 3T3 cell transformation function of the present invention has the effect that promotes that the clone forms, its promotion rate 〉=50% to the 3T3 cell.
As used herein, " isolating " is meant that material separates (if natural substance, primal environment promptly is a natural surroundings) from its primal environment.Do not have separation and purification as polynucleotide under the native state in the active somatic cell and polypeptide, but same polynucleotide or polypeptide as from native state with in other materials that exist separately, then for separation and purification.
As used herein, " isolating albumen or polypeptide with promotion 3T3 cell transformation function " is meant to have and promotes the protein polypeptide of 3T3 cell transformation function to be substantially free of natural relative other albumen, lipid, carbohydrate or other material.Those skilled in the art can have the albumen that promotes 3T3 cell transformation function with the purified technology of protein purifying of standard.Basically pure polypeptide can produce single master tape on non-reduced polyacrylamide gel.
Polypeptide of the present invention can be recombinant polypeptide, natural polypeptides, synthetic polypeptide, preferred recombinant polypeptide.Polypeptide of the present invention can be the product of natural purifying, or the product of chemosynthesis, or uses recombinant technology to produce from protokaryon or eucaryon host (for example, bacterium, yeast, higher plant, insect and mammalian cell).The host used according to the recombinant production scheme, polypeptide of the present invention can be glycosylated, maybe can be nonglycosylated.Polypeptide of the present invention also can comprise or not comprise initial methionine residues.
The present invention also comprises having the proteic fragment of people, derivative and the analogue that promotes 3T3 cell transformation function.As used herein, term " fragment ", " derivative " are meant with " analogue " and keep natural identical biological function or the active polypeptide of people's albumen that promotes 3T3 cell transformation function that have of the present invention basically.Polypeptide fragment of the present invention, derivative or analogue can be that (i) has one or more conservative or substituted polypeptide of non-conservation amino-acid residue (preferred conservative amino acid residue), and the amino-acid residue of such replacement can be also can not encoded by genetic code, or (ii) in one or more amino-acid residues, has a polypeptide of substituted radical, or (iii) mature polypeptide and another compound (such as the compound that prolongs the polypeptide transformation period, polyoxyethylene glycol for example) merge formed polypeptide, or (iv) additional aminoacid sequence is fused to this peptide sequence and the polypeptide that forms (as leader sequence or secretion sequence or be used for the sequence or the proteinogen sequence of this polypeptide of purifying).According to the instruction of this paper, these fragments, derivative and analogue belong to the known scope of those skilled in the art.
Polynucleotide of the present invention can be dna form or rna form.Dna form comprises the DNA of cDNA, genomic dna or synthetic.DNA can be strand or double-stranded.DNA can be coding strand or noncoding strand.Be example with FP630 albumen (in this application, its clone numbering is adopted in proteinic name), the coding region sequence of encoding mature polypeptide can be identical with the coding region sequence shown in the SEQ ID NO:2 or the varient of degeneracy.As used herein, " varient of degeneracy " is meant that for FP630 coding has the protein of SEQ ID NO:3, but with the differentiated nucleotide sequence of coding region sequence shown in the SEQ ID NO:2.Be example with FP2234 albumen (in this application, its clone numbering is adopted in proteinic name) again, the coding region sequence of encoding mature polypeptide can be identical with the coding region sequence shown in the SEQ ID NO:5 or the varient of degeneracy.As used herein, " varient of degeneracy " is meant that for FP2234 coding has the protein of SEQ ID NO:6, but with the differentiated nucleotide sequence of coding region sequence shown in the SEQ ID NO:5.Other have the albumen that promotes 3T3 cell transformation function for the present invention, and the rest may be inferred.
The polynucleotide of encoding mature polypeptide comprise: the encoding sequence of an encoding mature polypeptide; The encoding sequence of mature polypeptide and various additional code sequence; Encoding sequence of mature polypeptide (with optional additional code sequence) and non-coding sequence.
Term " polynucleotide of coded polypeptide " can be the polynucleotide that comprise this polypeptide of encoding, and also can be the polynucleotide that also comprise additional code and/or non-coding sequence.
The invention still further relates to the varient of above-mentioned polynucleotide, its coding has the polypeptide of identical aminoacid sequence or fragment, analogue and the derivative of polypeptide with the present invention.The varient of these polynucleotide can be the allelic variant of natural generation or the varient that non-natural takes place.These nucleotide diversity bodies comprise and replace varient, deletion mutation body and insert varient.As known in the art, allelic variant is the replacement form of polynucleotide, and it may be replacement, disappearance or the insertion of one or more Nucleotide, but can be from not changing the function of its encoded polypeptides in fact.
The invention still further relates to and above-mentioned sequence hybridization and two sequences between have at least 50%, preferably at least 70%, the polynucleotide of at least 80% homogeny more preferably.The present invention be more particularly directed under stringent condition and the interfertile polynucleotide of polynucleotide of the present invention.In the present invention, " stringent condition " is meant: (1) than hybridization under low ionic strength and the comparatively high temps and wash-out, as 0.2 * SSC, and 0.1%SDS, 60 ℃; Or (2) hybridization the time is added with denaturing agent, as 50% (v/v) methane amide, 0.1% calf serum/0.1%Ficoll, 42 ℃ etc.; Or (3) only at the homogeny between the two sequences at least more than 95%, be more preferably 97% and just hybridize when above.And the polypeptide of interfertile polynucleotide encoding has identical biological function and activity with the mature polypeptide shown in the SEQ IDNO:3 (is example with FP630 albumen).
The invention still further relates to nucleic acid fragment with above-mentioned sequence hybridization.As used herein, the length of " nucleic acid fragment " contains 15 Nucleotide at least, better is at least 30 Nucleotide, is more preferably at least 50 Nucleotide, preferably more than at least 100 Nucleotide.The amplification technique (as PCR) that nucleic acid fragment can be used for nucleic acid has the proteic polynucleotide that promotes 3T3 cell transformation function to determine and/or to separate coding.
Polypeptide among the present invention and polynucleotide preferably provide with isolating form, more preferably are purified to homogeneous.
Dna sequence dna of the present invention can obtain with several method.For example, with hybridization technique DNA isolation well known in the art.These technology including, but not limited to: 1) with probe and genome or the hybridization of cDNA library to detect homology nucleotide sequence and 2) antibody screening of expression library to be to detect the dna fragmentation of the clone with common structure feature.
Coding has the proteic specific DNA fragment sequence that promotes 3T3 cell transformation function and produces also and can obtain with following method: 1) separate double chain DNA sequence from genomic dna; 2) the chemical synthesising DNA sequence is to obtain the double-stranded DNA of required polypeptide.
When the whole aminoacid sequence of the polypeptide product of needs was known, the direct chemical of dna sequence dna is synthetic to be the method for often selecting for use.When if required amino acid whose whole sequence is not known, the direct chemical of dna sequence dna is synthetic to be impossible, and the method for selecting for use is the separation of cDNA sequence.The standard method that separates interested cDNA is from the donorcells separating mRNA of this gene of high expression level and carries out reverse transcription, forms plasmid or phage cDNA library.Extract the existing multiple proven technique of method of mRNA, test kit also can obtain (Qiagene) from commercial channels.And the construction cDNA library also is usual method (Sambrook, et al., Molecular Cloning, A Laboratory Manual, Cold Spring HarborLaboratory.New York, 1989).Also can obtain the cDNA library of commercial offers, as the different cDNA library of Clontech company.When being used in combination the polymeric enzyme reaction technology, even few expression product also can be cloned.
Available ordinary method is screened gene of the present invention from these cDNA libraries.These methods include, but is not limited to: (1) DNA-DNA or DNA-RNA hybridization; (2) function of marker gene occurs or forfeiture; (3) measure level with the proteic transcript that promotes 3T3 cell transformation function; (4), detect the protein product of genetic expression by immunological technique or mensuration biologic activity.Aforesaid method can singly be used, but also several different methods combined utilization.
In (1) kind method, hybridizing used probe is and any a part of homology of polynucleotide of the present invention that at least 15 Nucleotide of its length better are at least 30 Nucleotide, are more preferably at least 50 Nucleotide, preferably at least 100 Nucleotide.In addition, the length of probe within 2kb, preferably is within the 1kb usually.Probe used herein is the dna sequence dna of chemosynthesis on the basis of gene DNA sequence information of the present invention normally.Gene of the present invention itself or fragment are certainly as probe.The mark of dna probe can be used radio isotope, fluorescein or enzyme (as alkaline phosphatase) etc.
In (4) kind method, detect protein product and can use immunological technique such as Western blotting, radioimmunoprecipitation, enzyme-linked immunosorbent assay (ELISA) etc. with the protein gene expression that promotes 3T3 cell transformation function.
Use method (Saiki, the et al.Science 1985 of round pcr DNA amplification/RNA; 230:1350-1354) be optimized for acquisition gene of the present invention.When particularly being difficult to obtain the cDNA of total length from the library, can preferably use RACE method (the terminal rapid amplifying method of RACE-cDNA), the primer that is used for PCR can suitably be selected according to sequence information of the present invention disclosed herein, and available ordinary method is synthetic.Available ordinary method is as the DNA/RNA fragment by gel electrophoresis separation and purifying amplification.
The gene of the present invention that obtains as mentioned above, perhaps the available ordinary method of mensuration of the nucleotide sequence of various dna fragmentations etc. such as dideoxy chain termination (Sanger et al.PNAS, 1977,74:5463-5467).This class nucleotide sequencing is available commercial sequencing kit etc. also.In order to obtain the cDNA sequence of total length, order-checking need be carried out repeatedly.Sometimes need to measure a plurality of clones' cDNA sequence, just can be spliced into the cDNA sequence of total length.
The present invention also relates to comprise the carrier of polynucleotide of the present invention, and with carrier of the present invention or have the host cell that the albumen coded sequence that promotes 3T3 cell transformation function produces through genetically engineered, and the method that produces polypeptide of the present invention through recombinant technology.
Recombinant DNA technology (Science, 1984 by routine; 224:1431), can utilize polymerized nucleoside acid sequence of the present invention to can be used to express or produce the protein polypeptide that promotes 3T3 cell transformation function that has of reorganization.In general following steps are arranged:
(1). have the proteic polynucleotide of people (or varient) that promote 3T3 cell transformation function with coding of the present invention, or transform or the transduction proper host cell with the recombinant expression vector that contains these polynucleotide;
(2). the host cell of in suitable medium, cultivating;
(3). separation, protein purification from substratum or cell.
Among the present invention, the people's albumen polynucleotide sequence with promotion 3T3 cell transformation function can be inserted in the recombinant expression vector.Term " recombinant expression vector " refers to that bacterial plasmid well known in the art, phage, yeast plasmid, vegetable cell virus, mammalian cell virus are as adenovirus, retrovirus or other carriers.The carrier of Shi Yonging includes but not limited in the present invention: and the expression vector based on T7 of in bacterium, expressing (Rosenberg, et al.Gene, 1987,56:125); The pMSXND expression vector of in mammalian cell, expressing (Lee and Nathans, J Bio Chem.263:3521,1988) and at the carrier that derives from baculovirus of expressed in insect cells.In a word, as long as can duplicate in host and stablize, any plasmid and carrier can be used.A key character of expression vector is to contain replication orgin, promotor, marker gene and translation controlling elements usually.
Method well-known to those having ordinary skill in the art can be used to make up contain and has people's encoding histone dna sequence dna of promoting 3T3 cell transformation function and suitable transcribing/translate the expression vector of control signal.These methods comprise (Sambroook, et al) such as extracorporeal recombinant DNA technology, DNA synthetic technology, the interior recombinant technologys of body.Described dna sequence dna can effectively be connected on the suitable promotor in the expression vector, and is synthetic to instruct mRNA.The representative example of these promotors has: colibacillary lac or trp promotor; Lambda particles phage P LPromotor; Eukaryotic promoter comprises CMV immediate early promoter, early stage and late period SV40 promotor and some other known may command gene expression promoter in protokaryon or eukaryotic cell or its virus.Expression vector also comprises ribosome bind site and the transcription terminator that translation initiation is used.
In addition, expression vector preferably comprises one or more selected markers, to be provided for selecting the phenotypic character of transformed host cells, cultivate Tetrahydrofolate dehydrogenase, neomycin resistance and the green fluorescent protein (GFP) of usefulness as eukaryotic cell, or be used for colibacillary tsiklomitsin or amicillin resistance.
Comprise the carrier of above-mentioned suitable dna sequence dna and suitable promotor or control sequence, can be used to transform appropriate host cell, so that it can marking protein.
Host cell can be a prokaryotic cell prokaryocyte, as bacterial cell; Or eukaryotic cell such as low, as yeast cell; Or higher eucaryotic cells, as mammalian cell.Representative example has: intestinal bacteria, streptomyces; The bacterial cell of Salmonella typhimurium; Fungal cell such as yeast; Vegetable cell; The insect cell of fruit bat S2 or Sf9; The zooblast of CHO, COS or Bowes melanoma cells etc.
When polynucleotide of the present invention are expressed in higher eucaryotic cells, be enhanced if will make to transcribe when in carrier, inserting enhancer sequence.Enhanser is the cis acting factor of DNA, and nearly 10 to 300 base pairs act on promotor transcribing with enhancing gene usually.Can for example be included in the SV40 enhanser of 100 to 270 base pairs of replication origin side in late period one, at the polyoma enhanser of replication origin side in late period one and adenovirus enhanser etc.
Persons skilled in the art all know how to select appropriate carriers, promotor, enhanser and host cell.
Can carry out with routine techniques well known to those skilled in the art with the recombinant DNA transformed host cell.When the host was prokaryotic organism such as intestinal bacteria, the competent cell that can absorb DNA can be used CaCl in exponential growth after date results 2Method is handled, and used step is well-known in this area.Alternative is to use MgCl 2If desired, transforming also the method for available electroporation carries out.When the host is an eukaryote, can select following DNA transfection method for use: coprecipitation of calcium phosphate method, conventional mechanical method such as microinjection, electroporation, liposome packing etc.
The transformant that obtains can be cultivated with ordinary method, expresses the polypeptide of coded by said gene of the present invention.According to used host cell, used substratum can be selected from various conventional substratum in the cultivation.Under the condition that is suitable for the host cell growth, cultivate.After host cell grows into suitable cell density, induce the promotor of selection with suitable method (as temperature transition or chemical induction), cell is cultivated for some time again.
Recombinant polypeptide in the above methods can wrap by in cell, extracellular or on cytolemma, express or be secreted into the extracellular.If desired, can utilize its physics, the separating by various separation methods with other characteristic and the albumen of purification of Recombinant of chemistry.These methods are well-known to those skilled in the art.The example of these methods includes, but are not limited to: conventional renaturation handles, with protein precipitant handle (salt analysis method), centrifugal, the broken bacterium of infiltration, superly handle, the combination of super centrifugal, sieve chromatography (gel-filtration), adsorption chromatography, ion exchange chromatography, high performance liquid chromatography (HPLC) and other various liquid chromatography (LC) technology and these methods.
Having of reorganization promotes the people's albumen or the polypeptide of 3T3 cell transformation function to be of use in many ways.These purposes include, but is not limited to: directly have the disease due to the low or forfeiture of the protein function that promotes 3T3 cell transformation function as pharmacological agent and be used to screen and promote or antagonism has antibody, polypeptide or other part of the protein function that promotes 3T3 cell transformation function.For example, this antibody can be used for treating cancer or cellular abnormality propagation.The peptide molecule that can suppress or stimulate people's protein function that can be used for seeking therapeutic value with recombinant expressed protein screening peptide library of the present invention with promotion 3T3 cell transformation function.
The present invention also provides screening of medicaments to improve (agonist) or check the method that (antagonist) has the proteic medicament of people that promotes 3T3 cell transformation function to identify.Agonist improves and to have the people's albumen that promotes 3T3 cell transformation function biological function such as stimulate cellular proliferation, and antagonist prevention disorder such as the various cancer relevant with cell hyperproliferation with treatment.
Have the proteic antagonist of people that promotes 3T3 cell transformation function and comprise antibody, compound, acceptor disappearance thing and the analogue etc. that filter out.Have the proteic antagonist of people that promotes 3T3 cell transformation function and can and eliminate its function with people's protein binding with promotion 3T3 cell transformation function, or suppress to have the proteic generation of people that promotes 3T3 cell transformation function, or combine with the avtive spot of polypeptide and to make polypeptide can not bring into play biological function.Have and promote the proteic antagonist of people of 3T3 cell transformation function to can be used for therepic use.
In screening during as the compound of antagonist, can add in the bioanalysis mensuration having the albumen that promotes 3T3 cell transformation function, the albumen and the interaction between its acceptor that have promotion 3T3 cell transformation function by the mensuration compounds affect determine whether compound is antagonist.With the same quadrat method of above-mentioned SCREENED COMPOUND, can filter out the acceptor disappearance thing and the analogue of antagonist action.
The proteic antagonist of the present invention can be directly used in disease treatment, for example, and various malignant tumours and cellular abnormality propagation etc.
Polypeptide of the present invention, and fragment, derivative, analogue or their cell can be used as antigen to produce antibody.These antibody can be polyclone or monoclonal antibody.Polyclonal antibody can obtain by the method with this polypeptide direct injection animal.The technology of preparation monoclonal antibody comprises hybridoma technology, three knurl technology, people B-quadroma technology, EBV-hybridoma technology etc.
Can be with polypeptide of the present invention and antagonist and suitable pharmaceutical carrier combination back use.These carriers can be water, glucose, ethanol, salt, damping fluid, glycerine and their combination.Composition comprises the polypeptide or the antagonist of safe and effective amount and carrier and the vehicle that does not influence effect of drugs.These compositions can be used as medicine and are used for disease treatment.
The present invention also provides medicine box or the test kit that contains one or more containers, and one or more medicinal compositions compositions of the present invention are housed in the container.With these containers, can have by the given indicative prompting of government authorities of making, using or selling medicine or biological products, the government authorities that this prompting reflects production, uses or sells permits it to use on human body.In addition, polypeptide of the present invention can be used in combination with other treatment compound.
Pharmaceutical composition can be with mode administration easily, as by in part, intravenously, intraperitoneal, intramuscular, subcutaneous, the nose or the route of administration of intracutaneous.Have the albumen or its specific antibody that promote 3T3 cell transformation function, can come administration by the amount that treats and/or prevents concrete indication effectively.Be applied to having of patient and promote the proteic amount and the dosage range of 3T3 cell transformation function will depend on many factors, as administering mode, person's to be treated healthiness condition and diagnostician's judgement.
Have and promote the proteic polynucleotide of people of 3T3 cell transformation function also to can be used for multiple therapeutic purpose.Gene therapy technology can be used for treating since have that the proteic nothing that promotes 3T3 cell transformation function is expressed or unusual/non-activity have cell development or a metabolic disturbance due to the proteic expression that promotes 3T3 cell transformation function.The gene therapy vector (as virus vector) of reorganization can be designed to express the albumen that promotes 3T3 cell transformation function that has of variation, to suppress the endogenic protein-active that promotes 3T3 cell transformation function that has.For example, a kind of albumen that promotes 3T3 cell transformation function that has of variation can be the albumen with promotion 3T3 cell transformation function that shortens, lacked signal conduction function territory, though can combine with the substrate in downstream, lacks signaling activity.Therefore the gene therapy vector of reorganization can be used for treating and has the protein expression that promotes 3T3 cell transformation function or the disease of active caused by abnormal.Deriving from the expression vector of virus such as retrovirus, adenovirus, adeno-associated virus (AAV), hsv, parvovirus etc. can be used for having and promotes the protein gene of 3T3 cell transformation function to be transferred in the cell.The method that structure carries the recombinant viral vector with the protein gene that promotes 3T3 cell transformation function is found in existing document (Sambrook, et al.).Reorganization has the people's protein gene that promotes 3T3 cell transformation function and can be packaged in the liposome and be transferred in the cell in addition.
Inhibition has the oligonucleotide (comprising sense-rna and DNA) of the people's protein mRNA that promotes 3T3 cell transformation function and ribozyme also within the scope of the invention.Ribozyme is the enzyme sample RNA molecule that a kind of energy specificity is decomposed specific RNA, and its mechanism of action is to carry out the endonuclease effect after ribozyme molecule and the hybridization of complementary target RNA-specific.The RNA of antisense and DNA and ribozyme can obtain with existing any RNA or DNA synthetic technology, as the technology widespread use of solid phase phosphoamide chemical synthesis synthetic oligonucleotide.Antisense rna molecule can be transcribed acquisition by the dna sequence dna of this RNA that encodes in external or body.This dna sequence dna has been incorporated into the downstream of rna polymerase promoter of carrier.In order to increase the stability of nucleic acid molecule, available several different methods is modified it, and as increasing the sequence length of both sides, the connection between the ribonucleoside is used phosphoric acid thioester bond or peptide bond but not phosphodiester bond.
Polynucleotide imports tissue or intracellular method comprises: directly be injected into polynucleotide in the in-vivo tissue; Or external by carrier (as virus, phage or plasmid etc.) earlier with the polynucleotide transfered cell in, again cell is transplanted in the body etc.Because albumen of the present invention has the function that promotes the 3T3 cell transformation, so the antisense sequences of albumen coded sequence of the present invention, can be introduced into cell to suppress the abnormality proliferation (as canceration) of cell.
The present invention also provides at the antibody with the people's proteantigen determinant that promotes 3T3 cell transformation function.These antibody include, but is not limited to: the fragment that polyclonal antibody, monoclonal antibody, chimeric antibody, single-chain antibody, Fab fragment and Fab expression library produce.
The anti-proteic antibody of people with promotion 3T3 cell transformation function can be used in the immunohistochemistry technology, detects the people's albumen that promotes 3T3 cell transformation function that has in the biopsy specimen.
The also available labelled with radioisotope of the protein bound monoclonal antibody of people with having promotion 3T3 cell transformation function injects in the body and can follow the tracks of its position and distribution.This radiolabeled antibody can be used as a kind of atraumatic diagnostic method and is used for the location of tumour cell and has judged whether transfer.
Antibody among the present invention can be used for treating or preventing and have the relevant disease of people's albumen of promotion 3T3 cell transformation function.The antibody that gives suitable dosage can be blocked proteic generation of people or the activity with promotion 3T3 cell transformation function, thus the abnormality proliferation of the growth of anticancer and/or cell.
Antibody also can be used for designing the immunotoxin at a certain privileged sites in the body.As have the people's albumen high-affinity that promotes 3T3 cell transformation function monoclonal antibody can with bacterium or plant poison (as diphtheria toxin, ricin, abrine etc.) covalent attachment.A kind of usual method is with sulfydryl linking agent such as SPDP, attacks the amino of antibody, by the exchange of disulfide linkage, toxin is incorporated on the antibody, and this hybrid antibody can be used for killing relevant positive cell (as cancer cells).
Available people's albumen or the polypeptide immune animal of the production of polyclonal antibody with promotion 3T3 cell transformation function, as rabbit, mouse, rat etc.Multiple adjuvant can be used for the enhancing immunity reaction, includes but not limited to freund's adjuvant etc.
Have promote 3T3 cell transformation function people's protein monoclonal antibody can with hybridoma technology production (Kohler andMilstein.Nature, 1975,256:495-497).With the variable region bonded chimeric antibody in human constant region and inhuman source can with existing technology production (Morrison et al, PNAS, 1985,81:6851).And the technology of existing manufacture order chain antibody (U.S.Pat No.4946778) also can be used for producing the anti-proteic single-chain antibody of people that promotes 3T3 cell transformation function that has.
Can with have the protein bound peptide molecule of people that promotes 3T3 cell transformation function and can be incorporated into the rondom polypeptide storehouse that solid formation forms by the various amino acid that may make up by screening and obtain.During screening, must promote people's protein molecular of 3T3 cell transformation function to carry out mark to having.
The invention still further relates to quantitatively and detection and localization has the diagnostic testing process of people's protein level of promotion 3T3 cell transformation function.These tests are known in the art, and comprise that FISH measures and radioimmunoassay.That is detected in the test has a protein level that promotes 3T3 cell transformation function, can have the importance of albumen in various diseases that promotes 3T3 cell transformation function with laying down a definition and be used to diagnose to have the disease that the albumen that promotes 3T3 cell transformation function works.
Proteic polynucleotide with promotion 3T3 cell transformation function can be used for having the diagnosis and the treatment of the protein related diseases that promotes 3T3 cell transformation function.Aspect diagnosis, have the proteic polynucleotide that promotes 3T3 cell transformation function can be used for detecting have promote 3T3 cell transformation function proteic expression whether or under morbid state, have an abnormal exprssion that promotes 3T3 cell transformation function.As the protein D NA sequence with promotion 3T3 cell transformation function can be used for that the hybridization of biopsy specimen is had the proteic abnormal expression that promotes 3T3 cell transformation function with judgement.Hybridization technique comprises the Southern blotting, Northern blotting, in situ hybridization etc.These technological methods all are disclosed mature technologies, and relevant test kit all can obtain from commercial channels.Part or all of polynucleotide of the present invention can be used as probe stationary on microarray (Microarray) or DNA chip (being gene chip), is used for analyzing the differential expression analysis and the gene diagnosis of tissue gene.Carry out RNA-polymerase chain reaction (RT-PGR) amplification in vitro with the special primer of albumen and also can detect proteic transcription product with promotion 3T3 cell transformation function with promotion 3T3 cell transformation function.
The sudden change that detection has the protein gene that promotes 3T3 cell transformation function also can be used for diagnosing the relevant disease of albumen with promotion 3T3 cell transformation function.Form with the protein mutation that promotes 3T3 cell transformation function comprises that to have point mutation that the protein D NA sequence that promotes 3T3 cell transformation function compares, transposition, disappearance, reorganization and other any unusual etc. with normal wild type.Available existing technology such as Southern blotting, dna sequence analysis, PGR and in situ hybridization detect sudden change.In addition, sudden change might influence proteic expression, therefore can judge indirectly that with Northern blotting, Western blotting gene has or not sudden change.
Sequence of the present invention identifies it also is valuable to karyomit(e).These sequences can be specifically at certain bar human chromosome particular location and and can with its hybridization.At present, need to identify the concrete site of each gene on the karyomit(e).Yet have only chromosomal marker thing seldom to can be used for the marker chromosomes position now based on actual sequence data (repetition polymorphism).For these sequences are associated with disease related gene.The first step is positioned dna sequence dna of the present invention on the karyomit(e) exactly.
In brief, prepare PCR primer (preferred 15-35bp), sequence can be positioned on the karyomit(e) according to cDNA.Then, these primers are used for the somatocyte hybrid cell that the PCR screening contains each bar human chromosome.Have only those hybrid cells that contain corresponding to the people's gene of primer can produce the fragment of amplification.
The PCR localization method of somatocyte hybrid cell is that DNA is navigated to concrete chromosomal quick method.Use Oligonucleolide primers of the present invention,, can utilize one group to realize inferior location from specific chromosomal fragment or a large amount of genomic clone by similar approach.Other the similar strategy that can be used for chromosomal localization comprises in situ hybridization, uses the karyomit(e) prescreen and the hybridization preliminary election of the airflow classification of mark, thereby makes up the special cDNA storehouse of karyomit(e).
The cDNA clone is carried out fluorescence in situ hybridization (FISH) with Metaphase Chromosome, can in a step, accurately carry out chromosomal localization.The summary of this technology is referring to Verma etc., Human Chromosomes:a Manual of BasicTechniques, Pergamon Press, New York (1988).
In case sequence is positioned to chromosome position accurately, the physical location of this sequence on karyomit(e) just can be associated with the gene map data.These data for example are found in, V.Mckusick, Mendelian Inheritance in Man (can by with the online acquisition of Johns Hopkins University Welch Medical Library).Can pass through linkage analysis then, determine gene and navigated to relation between the disease on the chromosomal region already.
Then, need to measure ill and not cDNA between diseased individuals or genome sequence difference.If observe certain sudden change in some or all of diseased individuals, and this sudden change is not observed in any normal individual, then this sudden change may be the cause of disease of disease.More ill and diseased individuals not is usually directed at first seek the variation of structure in the karyomit(e), as from the horizontal visible of karyomit(e) or use based on detectable disappearance of the PCR of cDNA sequence or transposition.
Pyrenoids thuja acid full length sequence or its fragment with promotion 3T3 cell transformation function of the present invention can obtain with the method for pcr amplification method, recombination method or synthetic usually.For the pcr amplification method, can be disclosed according to the present invention about nucleotide sequence, especially open reading frame sequence designs primer, and with commercially available cDNA storehouse or by the prepared cDNA storehouse of ordinary method well known by persons skilled in the art as template, amplification and must relevant sequence.When sequence is longer, usually needs to carry out twice or pcr amplification repeatedly, and then the fragment that each time amplifies is stitched together by proper order.
In case obtained relevant sequence, just can obtain relevant sequence in large quantity with recombination method.This normally is cloned into carrier with it, changes cell again over to, separates obtaining relevant sequence then from the host cell after the propagation by ordinary method.
In addition, also the method for available synthetic is synthesized relevant sequence, especially fragment length more in short-term.Usually, by first synthetic a plurality of small segments, and then connect and to obtain the very long fragment of sequence.
At present, can be fully come the dna sequence dna of code book invention albumen (or its fragment, or derivatives thereof) by chemosynthesis.This dna sequence dna can be introduced then in the various dna moleculars (as carrier) and cell in this area.In addition, also can will suddenly change and introduce in the protein sequence of the present invention by chemosynthesis.
In addition, because the albumen with promotion 3T3 cell transformation function of the present invention has the natural acid sequence that is derived from the people, therefore, compare with the albumen of the same clan that derives from other species, estimate to have higher active and/or lower side effect (for example in the intravital immunogenicity of people lower or do not have) being applied to man-hour.
Below in conjunction with specific embodiment, further set forth the present invention.Should be understood that these embodiment only to be used to the present invention is described and be not used in and limit the scope of the invention.The experimental technique of unreceipted actual conditions in the following example, usually according to people such as normal condition such as Sambrook, molecular cloning: laboratory manual (New York:Cold Spring Harbor LaboratoryPress, 1989) condition described in, or the condition of advising according to manufacturer.Notice that in Nucleotide and amino acid composite sequence, what (1) provided is the position that initial sum stops first Nucleotide of coding, (2) molecular weight unit is dalton.
The acquisition of embodiment 1:cDNA gene and the promoter action that mouse NIH/3T3 cell clone is formed
FP630, FP2234, FP6679, FP6779, FP14381 and FP15331 obtain from the human fetal cDNA library that makes up according to a conventional method.Get fetal tissue (FP clone), (GIBCO BRL company) extracts total RNA by manufacturer's specification sheets with Trizol reagent, extracts mRNA with the mRNA test kit (Pharmacia company) of purifying.Make up the cDNA library of above-mentioned mRNA with pCMV-script TMXR cDNA library construction test kit (Stratagene company).Wherein ThermoScript II is used MMLV-RT-Superscript II (GIBCO BRL) instead, and reverse transcription reaction carries out at 42 ℃.Transform XL 10-Gold recipient cell, obtained 1 * 10 6The cDNA library of cfu/ μ g titre.The first round is picking cDNA clone at random, is probe with high abundance cDNA clone with the cDNA clone who has proved anticancer growth function thereafter, screening by hybridization cDNA library, weak positive and negative clone of picking.With Qiagen 96 orifice plate plasmid extraction test kits, carry out the extraction of plasmid DNA by shop instruction.Plasmid DNA and empty carrier transfection simultaneously mouse NIH/3T3 cell.After the 100ng DNA alcohol precipitation drying, add 6 μ l H 2Transfection is treated in the O dissolving.Add 0.74 μ l liposome and 9.3 μ l serum-free mediums in every part of DNA sample, behind the mixing, room temperature was placed 10 minutes.Add 150 μ l serum-free mediums in every pipe, divide equally and add 3 holes and grow in the mouse NIH/3T3 cell of 96 orifice plates, placed 2 hours for 37 ℃, every hole adds 50 μ l serum-free mediums again, 37 ℃ 24 hours.Every hole is changed 100 μ l and is trained liquid entirely, 37 ℃ 24 hours, change the full training liquid 100 μ l that contain G418,37 ℃ 24-48 hour, the limit is observed, the training liquid that G418 concentration does not wait is changed on the limit.After about 2-3 time, there is the clone to form up to the microscopy cell, counting.Find that above-mentioned clone has the cell clone of promotion formation effect, the result is as shown in the table.
CDNA clone's transfectional cell (3T3) clone formation situation
CDNA clones title CDNA clones number (three repetitions) Empty carrier clone number (three repetitions)
FP630 73 67 63 36 34 30
FP2234 68 35 58 36 34 30
FP6679 67 48 35 36 34 30
FP6778 58 56 54 21 28 20
FP14381 51 45 49 23 29 25
FP15331 60 69 73 11 16 14
The cDNA clone is adopted two deoxidation cessation method, on the ABI377DNA automatic sequencer, measure the nucleotide sequence of the nearly 500bp of one end.After the analysis, be defined as novel gene cloning, carry out the other end order-checking, do not obtain full length cDNA sequence yet, the design primer checks order once more, up to obtaining full length sequence (SEQ ID NO:1,4,7,10,13,16).
Embodiment 2: PCR obtains full-length gene from placenta or fetus cDNA:
Get fetal tissue (FP clone), (GIBCO BRL company) extracts total RNA by manufacturer's specification sheets with Trizol reagent, extracts mRNA with the mRNA test kit (Pharmacia company) of purifying.With MMLV-RT-Superscript II (GIBCO BRL), ThermoScript II is carried out reverse transcription reaction at 42 ℃, obtains placenta or fetus cDNA.Utilize the special primer (as shown in the table) of each gene, by 97 ℃ of 3 ' 1 circulations.94 ℃ 30 " 60 ℃ 30 " 72 ℃ of 1 ' 35 circulations, pcr amplification is carried out in 72 ℃ of 10 ' 1 circulations, and acquisition contains the amplified production of each protein gene of complete open reading frame sequence.Amplified production is through sequence verification, and the sequence that records with embodiment 1 conforms to, and changes amplified production over to host cell with routine techniques subsequently, obtains recombinant protein (SEQ ID NO:3,6,9,12,15,18).
Gene specific primer
Clone's title Special primer 1 (5 ' → 3 ') Special primer 2 (3 ' → 5 ')
FP630 (89)TTTAACACCCATAGTAGGC CAGACCGAAGAAAGGAAG(1698)
FP2234 (15)AAATTGGCAGGTGCACTT AAATAAGACCACCTCAGG(2124)
FP6679 (118)CATATCTCCCATAGAATAGG CCCACTGTCTCGTTCTGA(1936)
FP6778 (3)TGATCCCTCAATTTCTAGC CTCCGTCCTCGTAGTGAA(2181)
FP14381 (13)CCAGCCAACACTGTAACTC CCAGGAACCATACGACTC(2231)
FP15331 (15)CCTGGTGATGCCACTATTT GCTGTCCTCACTTTGGGAC(1043)
Embodiment 3:cDNA cloned sequence is analyzed
1.FP630
A: ( SEQ ID NO:1 ) :1837 1 GCTAAATCCC CTTGTAAATT TAACTGTTAG TCCAAAGAGG AACAGCTCTT TGGACACTAG 61 GAAAAAACCT TGTAGAGAGA GTAAAAAATT TAACACCCAT AGTAGGCCTA AAAGCAGCCA 121 CCAATTAAGA AAGCGTTCAA GCTCAACACC CACTACCTAA AAAACCCCAT CTCTACTAAA 181 AAAAAAAAAA TACAAAAAAT TAGCCAGGCA TGGTGGCGGG CGCCTGTAGT CCCAGCTACT 241 CCGGAGGCTG AGGCAGGAGA ATCGCTTGAA CCTGGGAGGC TGAGGTTGCA GTGAGCCGAG 301 ATCGCGCCAT TGCACTCCAG CCTCGACAAC AAGAGCCAAA CTCCGTCTCA AAAAAAAAAA 361 TTAAATAACA GCAAGCAACT GCATGCACGT CTGGGGGCGG TGTCCGGGGT GAGAAAGGCC 421 CCGCCAGCAA TCCATCCCAC AATCAGCGAT GGCTGAGGGG GTCTGGACCT CGCGGGACGG 481 GGCTGCACGC CCCCAAGCAA ATGCACAGCG CGGCTAAATT GGATTCGACA GCACCGGAAA 541 CGGCGACTCC CACTTGGGGC GCTGCGGACA CACGAGTCGA GGCTGCCTTC CAGGAAGCAA 601 ACAAAAAAAG GGGGGAAAAG GGGGGGAAAG AAAGAAAGAG AAAAAGGAGG GCGAGTGGCG 661 AGCAGGGGCC TCGGCCGCCA CCCACACGCC CCGAAGCGTG CTCGTCCCCC GCGCGGGGCT 721 CCCGGCCGCC GCCCTCGGCC ATCGGCTGCT CCCCGGTGGC CCAGGCCTCG GACTCCGCGG 781 CCGGCCCGGC GCGGCCCAGC GCCCTCAGGT GCGTACCCCG CCCCCGCCGC CGACGCCGCC 841 GACGCCGCCA TTAAGGGCGG GTTGCCTTTC GGAACGTCCT CCTCCTGAGG GCCTGGGGAA 901 GGGAGGCCGC CCGGCCGCAG CGGGAGGTGG CCCCCCGGGA CACCCCGGCG CCCCGAGGCG 961 AGGCACCCCC GAACCCCGAT CCCTGCTGGC AGGACCAGAG GTGTGAGGGT GGGGGCGGAG1021 AAGCCTTGCC GCGGGGGCAA TGGTCGTACG CACGGAGCGC ACATCCCTCT CCTTCCTGAT1081 TGGCCGAGCG GGGGTGTGCG TGATGCCACG CTCCGCCCGT CGTACGTGGG GCGCTCGCGG1141 GGGCGGGGGC CGCCGCTGTT ACCAGGCAAC TGCGCCCCGG ATCCGCCCCC TGACGTCACG1201 CGTTGCCTAG AGGCCCAGGT TGTGGGTTTT GTCCGTGGGT ATGGTCCTCG CGACGGCCTC1261 CGGGGATCTG TTTGTTGGCG GAAAACCAAT CCAGACTCCC AAGGAAAAAG GCCGAGGCCC1321 GGGAATTTCC CGTTGCAATT CTGGTTTCGA GTTCTAGGGG GAAAAAGGCT CGCAAGGCTG1381 TATTCTCCAT CCCTCAAAGC CCAAGCTTTC TTGTTTCTTA ATAACAGCTT CGTTGAGATC1441 CATTGTAAAA TTCACGTTTT AAGAGTGAAT AATTCAGTGC ACAGAGCTGT GCAACCTTTG1501 CCACTAATTG CAGAACGCTT TCAGCACCCG AGGAGAAGAA ACCCCAACCC CATTAGGCCG1561 TCATTCCCCG GTCCCCACCC CGTCCCTATC CCCAGCCCCT GGCAATCACT TTTGTCTCCG1621 TGGATTTGCC TATTCTGGAC ATTTCGTGTG GATAGAATCA TCCCAAGAAG TTTTTTGTGT1681 GTCTGGCTTC TTTCCTTCTT TATGGCTGAA TAAAAATCCA TGATATGAAA AAAAAAAAAA1741 AAAAAAAAAA AAAAAAAAAA AAAAAAAAAA AAAAAAAAAA AAAAAAAAAA AAAAAAAAAA1801 AAAAAAAAAA AAAAAAAAAA AAAAAAAAAA AAAAAAA
B: nucleotide sequence (SEQ ID NO:3) length: 117 amino acid/11 MHSAAKLDST APETATPTWG AADTRVEAAF QEANKKRGEK GGKERKRKRR ASGEQGPRPP 61 PTRPEACSSP ARGSRPPPSA IGCSPVAQAS DSAAGPARPS ALRCVPRPRR RRRRRRH
C. ( SEQ ID NO:2 ) :FP630:501 ATG :852 TAA :12609.50 1 GC TAA ATC CCC TTG TAA ATT TAA CTG TTA GTC CAA AGA GGA ACA GCT CTT TGG ACA CTA 59 60 GGA AAA AAC CTT GTA GAG AGA GTA AAA AAT TTA ACA CCC ATA GTA GGC CTA AAA GCA GCC 119 120 ACC AAT TAA GAA AGC GTT CAA GCT CAA CAC CCA CTA CCT AAA AAA CCC CAT CTC TAC TAA 179 180 AAA AAA AAA AAT ACA AAA AAT TAG CCA GGC ATG GTG GCG GGC GCC TGT AGT CCC AGC TAC 239 240 TCC GGA GGC TGA GGC AGG AGA ATC GCT TGA ACC TGG GAG GCT GAG GTT GCA GTG AGC CGA 299 300 GAT CGC GCC ATT GCA CTC CAG CCT CGA CAA CAA GAG CCA AAC TCC GTC TCA AAA AAA AAA 359 360 ATT AAA TAA CAG CAA GCA ACT GCA TGC ACG TCT GGG GGC GGT GTC CGG GGT GAG AAA GGC 419 420 CCC GCC AGC AAT CCA TCC CAC AAT CAG CGA TGG CTG AGG GGG TCT GGA CCT CGC GGG ACG 479 480 GGG CTG CAC GCC CCC AAG CAA ATG CAC AGC GCG GCT AAA TTG GAT TCG ACA GCA CCG GAA 539 1 Met His Ser Ala Ala Lys Leu Asp Ser Thr Ala Pro Glu 13 540 ACG GCG ACT CCC ACT TGG GGC GCT GCG GAC ACA CGA GTC GAG GCT GCC TTC CAG GAA GCA 599 14 Thr Ala Thr Pro Thr Trp Gly Ala Ala Asp Thr Arg Val Glu Ala Ala Phe Gln Glu Ala 33 600 AAC AAA AAA AGG GGG GAA AAG GGG GGG AAA GAA AGA AAG AGA AAA AGG AGG GCG AGT GGC 659 34 Asn Lys Lys Arg Gly Glu Lys Gly Gly Lys Glu Arg Lys Arg Lys Arg Arg Ala Ser Gly 53 660 GAG CAG GGG CCT CGG CCG CCA CCC ACA CGC CCC GAA GCG TGC TCG TCC CCC GCG CGG GGC 719 54 Glu Gln Gly Pro Arg Pro Pro Pro Thr Arg Pro Glu Ala Cys Ser Ser Pro Ala Arg Gly 73 720 TCC CGG CCG CCG CCC TCG GCC ATC GGC TGC TCC CCG GTG GCC CAG GCC TCG GAC TCC GCG 779 74 Ser Arg Pro Pro Pro Ser Ala Ile Gly Cys Ser Pro Val Ala Gln Ala Ser Asp Ser Ala 93 780 GCC GGC CCG GCG CGG CCC AGC GCC CTC AGG TGC GTA CCC CGC CCC CGC CGC CGA CGC CGC 839 94 Ala Gly Pro Ala Arg Pro Ser Ala Leu Arg Cys Val Pro Arg Pro Arg Arg Arg Arg Arg 113 840 CGA CGC CGC CAT TAA GGG CGG GTT GCC TTT CGG AAC GTC CTC CTC CTG AGG GCC TGG GGA 899 114 Arg Arg Arg His *** 118 900 AGG GAG GCC GCC CGG CCG CAG CGG GAG GTG GCC CCC CGG GAC ACC CCG GCG CCC CGA GGC 959 960 GAG GCA CCC CCG AAC CCC GAT CCC TGC TGG CAG GAC CAG AGG TGT GAG GGT GGG GGC GGA 10191020 GAA GCC TTG CCG CGG GGG CAA TGG TCG TAC GCA CGG AGC GCA CAT CCC TCT CCT TCC TGA 10791080 TTG GCC GAG CGG GGG TGT GCG TGA TGC CAC GCT CCG CCC GTC GTA CGT GGG GCG CTC GCG 11391140 GGG GCG GGG GCC GCC GCT GTT ACC AGG CAA CTG CGC CCC GGA TCC GCC CCC TGA CGT CAC 11991200 GCG TTG CCT AGA GGC CCA GGT TGT GGG TTT TGT CCG TGG GTA TGG TCC TCG CGA CGG CCT 12591260 CCG GGG ATC TGT TTG TTG GCG GAA AAC CAA TCC AGA CTC CCA AGG AAA AAG GCC GAG GCC 13191320 CGG GAA TTT CCC GTT GCA ATT CTG GTT TCG AGT TCT AGG GGG AAA AAG GCT CGC AAG GCT 13791380 GTA TTC TCC ATC CCT CAA AGC CCA AGC TTT CTT GTT TCT TAA TAA CAG CTT CGT TGA GAT 14391440 CCA TTG TAA AAT TCA CGT TTT AAG AGT GAA TAA TTC AGT GCA CAG AGC TGT GCA ACC TTT 14991500 GCC ACT AAT TGC AGA ACG CTT TCA GCA CCC GAG GAG AAG AAA CCC CAA CCC CAT TAG GCC 15591560 GTC ATT CCC CGG TCC CCA CCC CGT CCC TAT CCC CAG CCC CTG GCA ATC ACT TTT GTC TCC 16191620 GTG GAT TTG CCT ATT CTG GAC ATT TCG TGT GGA TAG AAT CAT CCC AAG AAG TTT TTT GTG 16791680 TGT CTG GCT TCT TTC CTT CTT TAT GGC TGA ATA AAA ATC CAT GAT ATG AAA AAA AAA AAA 17391740 AAA AAA AAA AAA AAA AAA AAA AAA AAA AAA AAA AAA AAA AAA AAA AAA AAA AAA AAA AAA 17991800 AAA AAA AAA AAA AAA AAA AAA AAA AAA AAA AAA AAA AA 1837
2.FP2234
A: ( SEQ ID NO:4 ) :2182 1 GCAGAGAAAT TTGAAAATTG GCAGGTGCAC TTTCTTGACC TTTCCAAAAA TAGTCTGAGT 61 CACTTTCACT TTCAGCCTTC AAACTGTGTT GAATGAAACC TTTGTGCAGT TTACAGAAAG 121 TGAAGAACTG TTTGGCAAGA GAGAGAAGTT CGAGCTCCTA ATAGCCTCGG CTGCATTGAG 181 TAACATTTCT TTTGAGTTGT CTATTAACAC TTTCCTGAAA CATGCTTTTT ATGACGCCTA 241 GAACTTGTGT AAGAGTGACT GTAATTTGAG TTATTTAAAA ATGTAAGTAC AAGAAATGTG 301 TCACACGCCA TAAGAGCTAG GAAATGACAG CTCACATTCA TCTTGGTGGA AGGAAACTCT 361 AATTATTGGA AGATGTGATT GGAGTATTTG TTCTTAATAC CTACGGTGGC TCTGTTATAT 421 GCTTGCCTAA CACCAGTATT GGCTTGCAAA TAACACTGAA AAGCTCCTTT CTTTTCCTCT 481 GGTCTTTGTG GGAAGGCATG GTATGAGTCG AGATTGCTAA ACCACTCTTC TGAGAGGACT 541 CAGAGAGAGT GTTTATCCTA GACTATCCAT GGCCCTGGTA CTTCTGAGTT CAGTTGTGGT 601 GTGATCTCAT TAGTCCAGGC TCAGAATGGC TCGGTAACCT CAAAACTCCA AGCCCTCGGT 661 GCTTGCTTTG CTTCCCTAGA CTTGCAGCTT ATGTACGCCC ACATGTGCTT CATGCGTATT 721 AAAAATGCTT GCATGTGTAG ATAGGAAGAT ATATGTTGAC TGTCCTGAAA AACTTGACAT 781 ACCTAACATT TAAAATTGTT TTGAGTTTCC CCCGGGGATA AACTAGTCTT CAAATGTAAA 841 CGTGATGAGC AGCGTAGGGG CTATGGTACC AGAGAAAAGA GCCGAATCTC GGCCCTGGTC 901 CAGCCCTACC TCTCGTGCTC TGTCACCTGC AGCAGAGGTG GAGTGGGGGC CATGTCTGTG 961 AGCGGGACCT CATCTTGTCT ATTCCTCAGA CCCACCCAAG GGCAGGGATT CCCAAAACTG1021 CTGGTACCTG TAAGAGGTAT TGTATTCTTG GACTCCATTC CATAACCTCT CATCAGGATT1081 CTGGGTTTGG AACTCTAGAA TCAATGTTGA GGAAAAATAG AACTTGGCGA TTTTATTTTT1141 CTAGATATAA TTCACATACC ATAAAAGCCA CTCTTTAAAT TGTACAATTC AGTGGTTTTT1201 TAGTATATTC AGAGTTGTAC AGCCATGACC ACTAGCTAAT TCAGAATATT TTCATTGCCT1261 CCCAACAAGC CTAGTACTCA TGAGTAGTCA CTCCCTTGCC CATTCCCTCC ACCCCCAAGC1321 CCCTGGCAAC CACTAATCTA CTTTCTGTCT CTATGGATTT GCCTATTTGA GACATTCATA1381 TGAATGGAAT TATATAATAT GTAGACTTTT GTATCTGTTT TTTTTTCATT TAGCATAAAA1441 ATTTTCAAGA TTTGTCCACA GTGTAGTGGT GTCTCAGTAC TTCTTTCCTT TTTATCACTG1501 AAAATACTTC ATTGATGTAT ATGTCATATT TTGTTATCTA CTCATCAATT GATGAATACT1561 TGTATTGTTT CCACTTTGGC TGTTACAAAT AATGCTGTTA TGAACATGTG TGTACAAGTA1621 TTTGTGTGGG TACATGTTAT TTCTCTTGGG CATACCTACA GATGGAATTA CTGGATCATA1681 TGACAACTTT ATGTTTAACT TTTTGAAAAA CTACAAAACC AACAAGCTGT ACCATTTTGT1741 AATCCCACCA GCAATGAATA GGGTTCTAAT TTTTCCACAT CTTCATCAAT ATTTGTTATT1801 GATCTTTTTG ATTATAGCCA ATCTAGTGAG TGTGAACTGG TATCTTATTG TAATTGTGAT1861 TTTGATTTGC AATTCCCTAA TGATGTTGAA CAGATGTTCA TATAATTGTT GGCCATTTAT1921 ATAGTCTTTA GAGATATATC TGTTTTGCCC ATTTCTAACT GAGCAAAACA GACAAAAATT1981 GAGTTGTGAA TGTTCTTTAT GTATACTGTA TACAAGCCCC TTAACAGATA TATGATTTGC2041 AAATCTTTTC TGTTCTGTAG GTTGTTTCTC CATGTTCTTG TTGGTATGCT TGGAAGCATA2101 AAAGTTTTTA TTCTGGTGGA GTCCAAAAAA AAAAAAAAAA AAAAAAAAAA AAAAAAAAAA2161 AAAAAAAAAA AAAAAAAAAA AA
B: nucleotide sequence (SEQ ID NO:6) length: 96 amino acid/11 MLFLLGIPTD GITGSYDNFM FNFLKNYKTN KLYHFVIPPA MNRVLIFPHL HQYLLLIFLI 61 IANLVSVNWY LIVIVILICN SLMMLNRCSY NCWPFI
C. ( SEQ ID NO:5 ) :FP2234:1634 ATG :1922 TAG :11333.15 1 G CAG AGA AAT TTG AAA ATT GGC AGG TGC ACT TTC TTG ACC TTT CCA AAA ATA GTC TGA 58 59 GTC ACT TTC ACT TTC AGC CTT CAA ACT GTG TTG AAT GAA ACC TTT GTG CAG TTT ACA GAA 118 119 AGT GAA GAA CTG TTT GGC AAG AGA GAG AAG TTC GAG CTC CTA ATA GCC TCG GCT GCA TTG 178 179 AGT AAC ATT TCT TTT GAG TTG TCT ATT AAC ACT TTC CTG AAA CAT GCT TTT TAT GAC GCC 238 239 TAG AAC TTG TGT AAG AGT GAC TGT AAT TTG AGT TAT TTA AAA ATG TAA GTA CAA GAA ATG 298 299 TGT CAC ACG CCA TAA GAG CTA GGA AAT GAC AGC TCA CAT TCA TCT TGG TGG AAG GAA ACT 358 359 CTA ATT ATT GGA AGA TGT GAT TGG AGT ATT TGT TCT TAA TAC CTA CGG TGG CTC TGT TAT 418 419 ATG CTT GCC TAA CAC CAG TAT TGG CTT GCA AAT AAC ACT GAA AAG CTC CTT TCT TTT CCT 478 479 CTG GTC TTT GTG GGA AGG CAT GGT ATG AGT CGA GAT TGC TAA ACC ACT CTT CTG AGA GGA 538 539 CTC AGA GAG AGT GTT TAT CCT AGA CTA TCC ATG GCC CTG GTA CTT CTG AGT TCA GTT GTG 598 599 GTG TGA TCT CAT TAG TCC AGG CTC AGA ATG GCT CGG TAA CCT CAA AAC TCC AAG CCC TCG 658 659 GTG CTT GCT TTG CTT CCC TAG ACT TGC AGC TTA TGT ACG CCC ACA TGT GCT TCA TGC GTA 718 719 TTA AAA ATG CTT GCA TGT GTA GAT AGG AAG ATA TAT GTT GAC TGT CCT GAA AAA CTT GAC 778 779 ATA CCT AAC ATT TAA AAT TGT TTT GAG TTT CCC CCG GGG ATA AAC TAG TCT TCA AAT GTA 838 839 AAC GTG ATG AGC AGC GTA GGG GCT ATG GTA CCA GAG AAA AGA GCC GAA TCT CGG CCC TGG 898 899 TCC AGC CCT ACC TCT CGT GCT CTG TCA CCT GCA GCA GAG GTG GAG TGG GGG CCA TGT CTG 958 959 TGA GCG GGA CCT CAT CTT GTC TAT TCC TCA GAC CCA CCC AAG GGC AGG GAT TCC CAA AAC 10181019 TGC TGG TAC CTG TAA GAG GTA TTG TAT TCT TGG ACT CCA TTC CAT AAC CTC TCA TCA GGA 10781079 TTC TGG GTT TGG AAC TCT AGA ATC AAT GTT GAG GAA AAA TAG AAC TTG GCG ATT TTA TTT 11381139 TTC TAG ATA TAA TTC ACA TAC CAT AAA AGC CAC TCT TTA AAT TGT ACA ATT CAG TGG TTT 11981199 TTT AGT ATA TTC AGA GTT GTA CAG CCA TGA CCA CTA GCT AAT TCA GAA TAT TTT CAT TGC 12581259 CTC CCA ACA AGC CTA GTA CTC ATG AGT AGT CAC TCC CTT GCC CAT TCC CTC CAC CCC CAA 13181319 GCC CCT GGC AAC CAC TAA TCT ACT TTC TGT CTC TAT GGA TTT GCC TAT TTG AGA CAT TCA 13781379 TAT GAA TGG AAT TAT ATA ATA TGT AGA CTT TTG TAT CTG TTT TTT TTT CAT TTA GCA TAA 14381439 AAA TTT TCA AGA TTT GTC CAC AGT GTA GTG GTG TCT CAG TAC TTC TTT CCT TTT TAT CAC 14981499 TGA AAA TAC TTC ATT GAT GTA TAT GTC ATA TTT TGT TAT CTA CTC ATC AAT TGA TGA ATA 15581559 CTT GTA TTG TTT CCA CTT TGG CTG TTA CAA ATA ATG CTG TTA TGA ACA TGT GTG TAC AAG 16181619 TAT TTG TGT GGG TAC ATG TTA TTT CTC TTG GGC ATA CCT ACA GAT GGA ATT ACT GGA TCA 1678 1 Met Leu Phe Leu Leu Gly Ile Pro Thr Asp Gly Ile Thr Gly Ser 151679 TAT GAC AAC TTT ATG TTT AAC TTT TTG AAA AAC TAC AAA ACC AAC AAG CTG TAC CAT TTT 1738 16 Tyr Asp Asn Phe Met Phe Asn Phe Leu Lys Asn Tyr Lys Thr Asn Lys Leu Tyr His Phe 351739 GTA ATC CCA CCA GCA ATG AAT AGG GTT CTA ATT TTT CCA CAT CTT CAT CAA TAT TTG TTA 1798 36 Val Ile Pro Pro Ala Met Asn Arg Val Leu Ile Phe Pro His Leu His Gln Tyr Leu Leu 551799 TTG ATC TTT TTG ATT ATA GCC AAT CTA GTG AGT GTG AAC TGG TAT CTT ATT GTA ATT GTG 1858 56 Leu Ile Phe Leu Ile Ile Ala Asn Leu Val Ser Val Asn Trp Tyr Leu Ile Val Ile Val 751859 ATT TTG ATT TGC AAT TCC CTA ATG ATG TTG AAC AGA TGT TCA TAT AAT TGT TGG CCA TTT 1918 76 Ile Leu Ile Cys Asn Ser Leu Met Met Leu Asn Arg Cys Ser Tyr Asn Cys Trp Pro Phe 951919 ATA TAG TCT TTA GAG ATA TAT CTG TTT TGC CCA TTT CTA ACT GAG CAA AAC AGA CAA AAA 1978 96 Ile *** 971979 TTG AGT TGT GAA TGT TCT TTA TGT ATA CTG TAT ACA AGC CCC TTA ACA GAT ATA TGA TTT 20382039 GCA AAT CTT TTC TGT TCT GTA GGT TGT TTC TCC ATG TTC TTG TTG GTA TGC TTG GAA GCA 20982099 TAA AAG TTT TTA TTC TGG TGG AGT CCA AAA AAA AAA AAA AAA AAA AAA AAA AAA AAA AAA 21582159 AAA AAA AAA AAA AAA AAA AAA AAA 2182
3.FP6679
A: ( SEQ ID NO:7 ) :1962 1 GCAAGAATTG GTTCTTTTCG GGGTTCTCTC CTATATCCCA TACAATCAAA CAATAAATAT 61 GTGTTGAATA AATCACTTGT GCAAATTCTA AAATTCACAT ATGACCCTGT ATTTTATCAT 121 ATCTCCCATA GAATAGGTGA GAACCAGAGA AAAATATTGT TAAGCCCAGG AGCCCAAGCT 181 ATATGATCAA CTGGAAAGAC TCAGTAGGTA ATTTGTTCCT AGAAAGCAGC CTATGGCAAC 241 AAATGATTGA AATTTCCACC TTGATAAAAT GACGAATTAC TACATGTCAG AGATTTCTAG 301 TTTGCTTGTA AATAATGAAA GCTGTGATGA TAAATCCCAG ATTTTCACCC TGAGGTACCC 361 TATCAGCAAA ACAGTAAATG CCATTCATTC TTCTGGAGGC CTTGCCAAAA AAAGTCATTG 421 CCTAACTAAA AAATATGCTG GAGTCTCACA TTTTGTCTTA AAATTTCATG TGAATTTTGG 481 ATTTTATGCC ACAATACATA TTTATTATAA TATTAACATT AAATTACCAG TTAAATTTCT 541 TAAATTTTTC TAAAAAATTT TGAAAAAGCT GATAGTCCCA GAAGATGTAT TATGTTTAGC 601 TTGTGTCTTG GCATATCATC AAGTCCAAGG AGCACATGAC AGATGAGAAA GGTGAGTGTA 661 ATCCATGGAA CTTGGTCAAT GCAGTAGGTT GAATTGTGTC CCCCCAAAAG ATATGCACAA 721 GCTCAGCTGG GTGTGGTGGC TCACACCTGT AATCCCAGCA CTGTGGGAGG CCAGGGCAGG 781 CAGATCGCTG GAGGTCAGGA GTTTGAGACT AGGCTGGCCA ACATGGTGAA ATCCCATCTC 841 TACTAAAAGT ACAAAAATTA GCCGGGCGTG ATGGCAGGTG CCCATAGTCC CAGCTACTCA 901 GGAGGCTGAG GCAGGAGAAT CGCTTGAACC TGGGAGGCAG AGTTTGCAGT GAGACAAGAT 961 TGCACCACTG CACTATAGCC TGGGTGACAG AGCAAGACTC TGCCTCAAAA AAAAAAAAAA1021 AAGATATGCA TAAGCTCTAG CTACCCCACT CCTTTTTCTG TGAATGTGAC CTTATTTGGA1081 TATACGGGTC TTTGCAGATA TAATTAAGTT GAGGATCTCA AAATGAGATA ATGTTGGATT1141 TAATCCAATG AGAGAGATCT GAGACCCAAA GAAACAGGGG AGACAGTCAT ATGAAGAAGG1201 AGGCTGCTAT GGTTTGGATG TGGTTTGTCC CCACTAAAAC TCCTGTTGAA ATTTGATCCC1261 CAGTGTGGCA GTATTGGGAG ATGGGAAGTG TTTTGGGGTC ATGGGAGCCA GGGTGTCTCA1321 TGAATAGGGT TAATGCCCTC CCAGTGGAGA GCATTCTCAT TCTTGTGGGA CTGGATTAAT1381 TACTGAAGAG CAGGTTGTTA TAACAAGTGA GTTCAGCCTC CTAGACTCTC TCTCTTGCTT1441 CCTCTCTCAC CATGTGATCT TTTGGCACAC ACCCGCTTCC CCTTCCTCTT TCTTCCATGA1501 GTTGAAGTGG TGTGGGACCC TGACCAGTTG CAGCTACCCA ATCTTGAATT TCCAGCCTAC1561 AGAACTGTGA GCTAAATAAG CCTCTTTTCT TTATAAATTA CCCAGTCTAA AGTGTTCTGT1621 TATAGCAACA AAAATAATGG ACTAAGAAAA TGGTAGGAGA CGCCCTGGCT TGGTGGCTCA1681 TGCCTGTAAT CCCAGCACTT TGGGAGGCCA AGGCAGGCGG ATCGCCTGAG GTCAGGAGTT1741 CAAGACCAGC CTGACCAACA TGGTGAAGCC CCATCTCTAC TAAAAATACA AAAATTAGCC1801 GGCCTTGGTG GCACACACCT ATAATCCCAG CTCCTTGGGA GGCTGAGGCA GGAGAATTTC1861 TTGAACCCAG GAGGCAGAGG TTGCAATGAG CTGAGATTCT GCCACTGCAC TCCAGCCTGG1921 GTGACAGAGC AAGACTGTGT CTGGAAAAAA AAAAAAAAAA AA
B: nucleotide sequence (SEQ ID NO:9) length: 94 amino acid/11 MTNYYMSEIS SLLVNNESCD DKSQIFTLRY PISKTVNAIH SSGGLAKKSH CLTKKYAGVS 61 HFVLKFHVNF GFYATIHIYY NINIKLPVKF LKFF
C. Nucleotide and amino acid composite sequence (SEQ ID NO:8) clone number and protein name:FP6679 start code; 269 ATG :551 TAA :10833.10 1 G CAA GAA TTG GTT CTT TTC GGG GTT CTC TCC TAT ATC CCA TAC AAT CAA ACA ATA AAT 58 59 ATG TGT TGA ATA AAT CAC TTG TGC AAA TTC TAA AAT TCA CAT ATG ACC CTG TAT TTT ATC 118 119 ATA TCT CCC ATA GAA TAG GTG AGA ACC AGA GAA AAA TAT TGT TAA GCC CAG GAG CCC AAG 178 179 CTA TAT GAT CAA CTG GAA AGA CTC AGT AGG TAA TTT GTT CCT AGA AAG CAG CCT ATG GCA 238 239 ACA AAT GAT TGA AAT TTC CAC CTT GAT AAA ATG ACG AAT TAC TAC ATG TCA GAG ATT TCT 298 1 Met Thr Asn Tyr Tyr Met Ser Glu Ile Ser 10 299 AGT TTG CTT GTA AAT AAT GAA AGC TGT GAT GAT AAA TCC CAG ATT TTC ACC CTG AGG TAC 358 11 Ser Leu Leu Val Asn Asn Glu Ser Cys Asp Asp Lys Ser Gln Ile Phe Thr Leu Arg Tyr 30 359 CCT ATC AGC AAA ACA GTA AAT GCC ATT CAT TCT TCT GGA GGC CTT GCC AAA AAA AGT CAT 418 31 Pro Ile Ser Lys Thr Val Asn Ala Ile His Ser Ser Gly Gly Leu Ala Lys Lys Ser His 50 419 TGC CTA ACT AAA AAA TAT GCT GGA GTC TCA CAT TTT GTC TTA AAA TTT CAT GTG AAT TTT 478 51 Cys Leu Thr Lys Lys Tyr Ala Gly Val Ser His Phe Val Leu Lys Phe His Val Asn Phe 70 479 GGA TTT TAT GCC ACA ATA CAT ATT TAT TAT AAT ATT AAC ATT AAA TTA CCA GTT AAA TTT 538 71 Gly Phe Tyr Ala Thr Ile His Ile Tyr Tyr Asn Ile Asn Ile Lys Leu Pro Val Lys Phe 90 539 CTT AAA TTT TTC TAA AAA ATT TTG AAA AAG CTG ATA GTC CCA GAA GAT GTA TTA TGT TTA 598 91 Leu Lys Phe Phe *** 95 599 GCT TGT GTC TTG GCA TAT CAT CAA GTC CAA GGA GCA CAT GAC AGA TGA GAA AGG TGA GTG 658 659 TAA TCC ATG GAA CTT GGT CAA TGC AGT AGG TTG AAT TGT GTC CCC CCA AAA GAT ATG CAC 718 719 AAG CTC AGC TGG GTG TGG TGG CTC ACA CCT GTA ATC CCA GCA CTG TGG GAG GCC AGG GCA 778 779 GGC AGA TCG CTG GAG GTC AGG AGT TTG AGA CTA GGC TGG CCA ACA TGG TGA AAT CCC ATC 838 839 TCT ACT AAA AGT ACA AAA ATT AGC CGG GCG TGA TGG CAG GTG CCC ATA GTC CCA GCT ACT 898 899 CAG GAG GCT GAG GCA GGA GAA TCG CTT GAA CCT GGG AGG CAG AGT TTG CAG TGA GAC AAG 958 959 ATT GCA CCA CTG CAC TAT AGC CTG GGT GAC AGA GCA AGA CTC TGC CTC AAA AAA AAA AAA 10181019 AAA AGA TAT GCA TAA GCT CTA GCT ACC CCA CTC CTT TTT CTG TGA ATG TGA CCT TAT TTG 10781079 GAT ATA CGG GTC TTT GCA GAT ATA ATT AAG TTG AGG ATC TCA AAA TGA GAT AAT GTT GGA 11381139 TTT AAT CCA ATG AGA GAG ATC TGA GAC CCA AAG AAA CAG GGG AGA CAG TCA TAT GAA GAA 11981199 GGA GGC TGC TAT GGT TTG GAT GTG GTT TGT CCC CAC TAA AAC TCC TGT TGA AAT TTG ATC 12581259 CCC AGT GTG GCA GTA TTG GGA GAT GGG AAG TGT TTT GGG GTC ATG GGA GCC AGG GTG TCT 13181319 CAT GAA TAG GGT TAA TGC CCT CCC AGT GGA GAG CAT TCT CAT TCT TGT GGG ACT GGA TTA 13781379 ATT ACT GAA GAG CAG GTT GTT ATA ACA AGT GAG TTC AGC CTC CTA GAC TCT CTC TCT TGC 14381439 TTC CTC TCT CAC CAT GTG ATC TTT TGG CAC ACA CCC GCT TCC CCT TCC TCT TTC TTC CAT 14981499 GAG TTG AAG TGG TGT GGG ACC CTG ACC AGT TGC AGC TAC CCA ATC TTG AAT TTC CAG CCT 15581559 ACA GAA CTG TGA GCT AAA TAA GCC TCT TTT CTT TAT AAA TTA CCC AGT CTA AAG TGT TCT 16181619 GTT ATA GCA ACA AAA ATA ATG GAC TAA GAA AAT GGT AGG AGA CGC CCT GGC TTG GTG GCT 16781679 CAT GCC TGT AAT CCC AGC ACT TTG GGA GGC CAA GGC AGG CGG ATC GCC TGA GGT CAG GAG 17381739 TTC AAG ACC AGC CTG ACC AAC ATG GTG AAG CCC CAT CTC TAC TAA AAA TAC AAA AAT TAG 17981799 CCG GCC TTG GTG GCA CAC ACC TAT AAT CCC AGC TCC TTG GGA GGC TGA GGC AGG AGA ATT 18581859 TCT TGA ACC CAG GAG GCA GAG GTT GCA ATG AGC TGA GAT TCT GCC ACT GCA CTC CAG CCT 19181919 GGG TGA CAG AGC AAG ACT GTG TCT GGA AAA AAA AAA AAA AAA AA 1962
4.FP6778
A: ( SEQ ID NO:10 ) :2263 1 GCTGATCCCT CAATTTCTAG CACATAATTT CATCACTAGT TCACTTACAA ACCTCAGTTT 61 TCCCATGTGT AAAATAGGAA TTAAGTGATC ACAAGGCCGC TCTATGGAGC CCTCATCCTA 121 AGGTTACAAT GAGTACATAT CAGTTGTAGG AGTCCTTTTA TCCAACAGTG ACTCCGTCAA 181 GCCCTTGCCG TATGCTAGGG CTTGTAGTGG ACACCCGAAG AACCATAAGG AGTAAGATGA 241 GGCTGGTTGC AGAGAGTACA GTCTCATCAG AAGAACTTGC TCTTGTAATA AATTCAATCA 301 TTGACAATCA TTATTTCCAC CCAATCTGTG AAACAGAATA CCGTTATTTC TTTTTTTTGA 361 GAGAGAGTCT TCTTCTGTCG CCCAGGCTGG AGTGTAGTGG CGTGATCTCA GCTCACTGCA 421 ACCTCCACCT CCACCTCCCG GGTTCAAGCA ATTCTCGTGC CTCAGCCTCC CAACTAGCTG 481 GAGCTGCAGG CGCATACCAC CATGCCCAGC TAATTTTTGT ATTATTTGTA GAGATGGGGT 541 TTTGCCACAT TGCCCAGGCT GGTCTTGAAC TCCTGTCCTC AGGTTATCCA CCTCCCAAAG 601 TGCTGGGGTT ACAGGCATGA GCCACTGCGG GATCTCACTC GGTCACCCAG GCTGGAATGC 661 AGTGGAGTGA TCATGGCTCG CTGTAGCCTT GACCTGGGCT CAAGCGATCC TCCTGCCTCA 721 GCCTCCCAGG CTGGTCTCGA ACTCCTGACC TCAGGTGATC TGCCCACCTT GGCCTCCCTA 781 AGTGCTGGGG TTACAGGCAA GAGCCACCGC GCCCAGCCGG AAATTCCATT TTAGACTGGA 841 AGCCACAGTA TAAGGAAAAC AGCTCCTTGG AGTGCATTCA GAGTATGACT CCATGGCCAG 901 GACAGGGAGG GGCTCTAACA TAAAAAGAAC TAGGGGGTTC GGAGACGTTC CTAATCTTGG 961 GGTAGCAGGG AAAGACGGCA GCACCACTGG ACAGCAGGAG CAAGAGGAAT AATTTCAGGA1021 ATCTGGGACG CGAAAAGATA AGGGGGAAGG GTCATGGGGG CATTTGTGGG TTCTGTCCTT1081 GTAGTTCTCA AGAGCCGACC AGAAAGAAAG GCCAGGGGAC GGAGCCAGGC TTTTTCTGAG1141 AGACCCCTGT AGACCCCAGC CAAGCATAGA GGCTGGCGAG AGGAAACTTT TTTGTTTTTG1201 CTTCTGAGAC AGTCTTGCTC TGTTGCCCAG GCTGGAGTGC AGTGGCACAA TCTCAGCTCA1261 CTGCAACCTC CCCGTCCTGG GTTCAAGTGA TTCCCCTGCC TCAGCCTCCC AAATAGCTGG1321 GACTATGGGC ATATGGCTCC CCATCCTGGG TTCAAGCGAT TCTCCTGCCA CAGCCTCCCG1381 AGTAGCTGGG ACTACGGGCA TATGGCTCCC CATCCTGGGT TCAAGCGATT CTCCTGCCTC1441 AGCCTCCCGA GTAGCTGGGA CTACAGGCAT ATGGCACCAC GCATGGCTAA TTTTCTTATT1501 TTTAGTAGAG ATAACTCCTG GGCTCAAGCG ATCTGCCCAC CTCGGCCTCC CAAAGTGCTG1561 AGATTACAGG CACATGCCAC CACACCCAGC TAATTATTGT GTTTTTAGTA GAGACGGGGT1621 TTTGCCATGT TTGCCCAGGC TGCTCTTGAA CTCCTGGGCT CAAACGATCC ACCCACCTCT1681 GCCTCCCAAA GTTCTGGGGT TACAGGCATC AGCCACCATG CCCAGCCAGG AAGCTTATTC1741 CCAGTGGTCT GGCTCTCCAG AGTTGCCACG CTGAAAGATG CTTGCTCTGG AGAGAGTGAG1801 CTCCCTGTCA CCAGAGCTAT GCAAGCAGAT TCAGGCCAGC CCTCCCAGAG AGCATGAGAT1861 GGGGAATCAC GCACAGAGTG GACCGAAGGA GGGATTGAAC AAGAAGGCTC AAAGGGTCCC1921 TTTTGACCCT GAAGTCTAGG ATTTCGTGAA GCTACAGGTG AACCCATTGG CATGAGAAGC1981 ATCCAGGGAG GAAAGATGCA AGCCCTTGGA ATATCGAGAG AATATTTCCA GCAGGAAAAG2041 AAGTGGAAGG TTAAAGGAAA GCCAGAGAAG GGGACGTTGC CCTGGGCCAT CAACTAAGAG2101 AAAAGCTGCC CAGAGCCAGG CATGGTGGCG GCGGTGCCTA TAGTACCGGC AGTTGGAGAG2161 GCCGAGGCAG GAGCATCACT TGAGCCCATG AGTTTGAGAC CAGCCTGGGC AACATAGTGA2221 GACTTTTTTC TCTACAAAAA AGTTTAAAAA AAAAAAAAAA AAA
B: nucleotide sequence (SEQ ID NO:12) length: 142 amino acid/11 MLGLVVDTRR TIRSKMRLVA ESTVSSEELA LVINSIIDNH YFHPICETEY RYFFFLRESL 61 LLSPRLECSG VISAHCNLHL HLPGSSNSRA SASQLAGAAG AYHHAQLIFV LFVEMGFCHI 121 AQAGLELLSS GYPPPKVLGL QA
C. ( SEQ ID NO:11 ) :FP6778:192 ATG :618 TGA :15625.22 1 GC TGA TCC CTC AAT TTC TAG CAC ATA ATT TCA TCA CTA GTT CAC TTA CAA ACC TCA GTT 59 60 TTC CCA TGT GTA AAA TAG GAA TTA AGT GAT CAC AAG GCC GCT CTA TGG AGC CCT CAT CCT 119 120 AAG GTT ACA ATG AGT ACA TAT CAG TTG TAG GAG TCC TTT TAT CCA ACA GTG ACT CCG TCA 179 180 AGC CCT TGC CGT ATG CTA GGG CTT GTA GTG GAC ACC CGA AGA ACC ATA AGG AGT AAG ATG 239 1 Met Leu Gly Leu Val Val Asp Thr Arg Arg Thr Ile Arg Ser Lys Met 16 240 AGG CTG GTT GCA GAG AGT ACA GTC TCA TCA GAA GAA CTT GCT CTT GTA ATA AAT TCA ATC 299 17 Arg Leu Val Ala Glu Ser Thr Val Ser Ser Glu Glu Leu Ala Leu Val Ile Asn Ser Ile 36 300 ATT GAC AAT CAT TAT TTC CAC CCA ATC TGT GAA ACA GAA TAC CGT TAT TTC TTT TTT TTG 359 37 Ile Asp Asn His Tyr Phe His Pro Ile Cys Glu Thr Glu Tyr Arg Tyr Phe Phe Phe Leu 56 360 AGA GAG AGT CTT CTT CTG TCG CCC AGG CTG GAG TGT AGT GGC GTG ATC TCA GCT CAC TGC 419 57 Arg Glu Ser Leu Leu Leu Ser Pro Arg Leu Glu Cys Ser Gly Val Ile Ser Ala His Cys 76 420 AAC CTC CAC CTC CAC CTC CCG GGT TCA AGC AAT TCT CGT GCC TCA GCC TCC CAA CTA GCT 479 77 Asn Leu His Leu His Leu Pro Gly Ser Ser Asn Ser Arg Ala Ser Ala Ser Gln Leu Ala 96 480 GGA GCT GCA GGC GCA TAC CAC CAT GCC CAG CTA ATT TTT GTA TTA TTT GTA GAG ATG GGG 539 97 Gly Ala Ala Gly Ala Tyr His His Ala Gln Leu Ile Phe Val Leu Phe Val Glu Met Gly 116 540 TTT TGC CAC ATT GCC CAG GCT GGT CTT GAA CTC CTG TCC TCA GGT TAT CCA CCT CCC AAA 599 117 Phe Cys His Ile Ala Gln Ala Gly Leu Glu Leu Leu Ser Ser Gly Tyr Pro Pro Pro Lys 136 600 GTG CTG GGG TTA CAG GCA TGA GCC ACT GCG GGA TCT CAC TCG GTC ACC CAG GCT GGA ATG 659 137 Val Leu Gly Leu Gln Ala *** 143 660 CAG TGG AGT GAT CAT GGC TCG CTG TAG CCT TGA CCT GGG CTC AAG CGA TCC TCC TGC CTC 719 720 AGC CTC CCA GGC TGG TCT CGA ACT CCT GAC CTC AGG TGA TCT GCC CAC CTT GGC CTC CCT 779 780 AAG TGC TGG GGT TAC AGG CAA GAG CCA CCG CGC CCA GCC GGA AAT TCC ATT TTA GAC TGG 839 840 AAG CCA CAG TAT AAG GAA AAC AGC TCC TTG GAG TGC ATT CAG AGT ATG ACT CCA TGG CCA 899 900 GGA CAG GGA GGG GCT CTA ACA TAA AAA GAA CTA GGG GGT TCG GAG ACG TTC CTA ATC TTG 959 960 GGG TAG CAG GGA AAG ACG GCA GCA CCA CTG GAC AGC AGG AGC AAG AGG AAT AAT TTC AGG 10191020 AAT CTG GGA CGC GAA AAG ATA AGG GGG AAG GGT CAT GGG GGC ATT TGT GGG TTC TGT CCT 10791080 TGT AGT TCT CAA GAG CCG ACC AGA AAG AAA GGC CAG GGG ACG GAG CCA GGC TTT TTC TGA 11391140 GAG ACC CCT GTA GAC CCC AGC CAA GCA TAG AGG CTG GCG AGA GGA AAC TTT TTT GTT TTT 11991200 GCT TCT GAG ACA GTC TTG CTC TGT TGC CCA GGC TGG AGT GCA GTG GCA CAA TCT CAG CTC 12591260 ACT GCA ACC TCC CCG TCC TGG GTT CAA GTG ATT CCC CTG CCT CAG CCT CCC AAA TAG CTG 13191320 GGA CTA TGG GCA TAT GGC TCC CCA TCC TGG GTT CAA GCG ATT CTC CTG CCA CAG CCT CCC 13791380 GAG TAG CTG GGA CTA CGG GCA TAT GGC TCC CCA TCC TGG GTT CAA GCG ATT CTC CTG CCT 14391440 CAG CCT CCC GAG TAG CTG GGA CTA CAG GCA TAT GGC ACC ACG CAT GGC TAA TTT TCT TAT 14991500 TTT TAG TAG AGA TAA CTC CTG GGC TCA AGC GAT CTG CCC ACC TCG GCC TCC CAA AGT GCT 15591560 GAG ATT ACA GGC ACA TGC CAC CAC ACC CAG CTA ATT ATT GTG TTT TTA GTA GAG ACG GGG 16191620 TTT TGC CAT GTT TGC CCA GGC TGC TCT TGA ACT CCT GGG CTC AAA CGA TCC ACC CAC CTC 16791680 TGC CTC CCA AAG TTC TGG GGT TAC AGG CAT CAG CCA CCA TGC CCA GCC AGG AAG CTT ATT 17391740 CCC AGT GGT CTG GCT CTC CAG AGT TGC CAC GCT GAA AGA TGC TTG CTC TGG AGA GAG TGA 17991800 GCT CCC TGT CAC CAG AGC TAT GCA AGC AGA TTC AGG CCA GCC CTC CCA GAG AGC ATG AGA 18591860 TGG GGA ATC ACG CAC AGA GTG GAC CGA AGG AGG GAT TGA ACA AGA AGG CTC AAA GGG TCC 19191920 CTT TTG ACC CTG AAG TCT AGG ATT TCG TGA AGC TAC AGG TGA ACC CAT TGG CAT GAG AAG 19791980 CAT CCA GGG AGG AAA GAT GCA AGC CCT TGG AAT ATC GAG AGA ATA TTT CCA GCA GGA AAA 20392040 GAA GTG GAA GGT TAA AGG AAA GCC AGA GAA GGG GAC GTT GCC CTG GGC CAT CAA CTA AGA 20992100 GAA AAG CTG CCC AGA GCC AGG CAT GGT GGC GGC GGT GCC TAT AGT ACC GGC AGT TGG AGA 21592160 GGC CGA GGC AGG AGC ATC ACT TGA GCC CAT GAG TTT GAG ACC AGC CTG GGC AAC ATA GTG 22192220 AGA CTT TTT TCT CTA CAA AAA AGT TTA AAA AAA AAA AAA AAA AA 2263
5.FP14381
A: ( SEQ ID NO:13 ) :2283 1 GGATCAATCA CCCCAGCCAA CACTGTAACT CCCTTCTTAG CCTGTTGACT TAAAGGTAGG 61 AGGAGCCCAA AGTGTCTAGG TGGCAATCTC AGCTTCCGGT TTAATGGAAT CATTCTTGTG 121 TCTCCTGGTG GCAGTGTTCC TCCCCCTGGA ACTAAGACCT CCAAGCCAGC AGAATGTAAT 181 GTCATGGGAA CAGGAAGAAA AATTTTGCTT GTGGAACACT ATGGGTGATG GTGAGTTGTG 241 CCACTTCTAC TTCCATCCCT TGATTCCTGG ACCCGTGAAT CCTGGCTATG GGAGAAACAC 301 TATCATATAT TGGATGCTGA TTTAGAGCAT ACATGGCTTT CTAGAGAACT TTGCCCCAGG 361 CCTGCAAAGT ATTGTCACCT AGTTGGCATT GTAATTGTGA CTTCAAAAGG CCATTCCACC 421 ATTCTATCAA TCCAGCTGCT TCAGATGATG GGGAATATGG TAAGACCAGT AAATTCCATG 481 GGCACGAGAC CACTGCCACA CTGCTTTTGC CATAAAGTGA ATGCGTTGGT CAGAGGCAAT 541 GCTGTTGGGA ATACCATGAT GGTGGGTAAG GCATTTCATG AGTCCACGGA TGGTAGTCTT 601 GGCAGAAGCA TTGCATGCAG GATAGGCAAA CCCATATCCC AAGTAAGTGT CTATTCCAGT 661 GAGGACAAAG CTTTGACTTT TCCATGATGG GAGAGGTCCA ATATAATCAA CCTGCCACCA 721 GGTAGCTGGC TGATTACCCC GAGGAATGGT GCCATATTGA GGACTCAGTG TTGGTGTCTG 781 CTGCTGGCAA ATTTGGCACT CAGCAGTGGC TGTAGCCAGG TCAGCCTTGG TGAGTGGAAG 841 TCCATATTGC TGAACCCATG TGTAACCTCC ATCCCTGCCA CGATGGCCAC TTTGTTCGTG 901 GGCCCATTGG GCGATCACAG GGGTGGCTGG GGAAGGAGGC TGAGTGGTGT CCATAGATCG 961 GGTCATCCTA TCCACTTGAT TATTAAAATC CTCCTCTGCT GAGGTCACCT GTTGGTGGGC1021 ACCTACATGG AATACAAAAG TATTCACAGT TTTTGACCAC GCAGAAGAGG TTCATCCACA1081 TACCTCTTCC CCAACTTTGT CACAAATTTT CCAGTCATGC TTCTTCCAAG TCCCTGACCA1141 TCCAGCCAAA CCACTGGCCA CAGCCAATGA ATCAGTATAT AATCACATAT CTGGCCATTT1201 CTCCTTCCAT GCAAAGTGCA CAACTAGGTG CACTGCTCAA AGTTCTGCTT ACTGGGAAGA1261 TTCCTCTTCA CTGCTGTCCT TCAGGGGTGT CCTAGAAAGG GGGGCTGTAG TGCTCCAGTT1321 GTCCACTTTT GTGGGGAAAA GAAAGAGAGA TCAGACTGTT ACTGTGTCTA AGTAGAAAGG1381 GAAGACATAA GACACTCCAT TTTGAAAAAG ACCTGTACTT TAAATAATTG CTTTGCTGAG1441 ATGTTGTTAA TTTGTAGCTT TGCCCCAGCC ACTTTGACCC AACCACTTTG ACACAACCTG1501 GAGCTCACAA AAACATGTGT TGTATGAAAT CAAGGTTTAA GGGATCTAGG ACTGTGCAGG1561 ACGTGCCTTG TTAACAAAAT GTTTACAAGC AGTATACTTG GTAAAAGTCA TCGCCATTCT1621 CTAGTCTCAA TAAACCAGGG GCACAATGCA CTGTGGAAAG CCACAGGGAC CTCCACCCTT1681 GAAAGCGGGG TATTGTCCAA GGTTTCTCCC CATGTGATAG TCTAAAATAT GGCCTCACAG1741 GATTAGAAAG ACCTGACTGT CCCCCAGCCC GACACCCATA AAGGGTCTGT GCTGAGGTGG1801 ATTAGTAAAA GAGGAAAGCC TCTTGCAGTT GAGATAGCGG AAAGCCAGTC TCCTGCCTGC1861 CCCTGGGAAC TGAATGTCTC AGTATAAAAC CCAGTTGTAC ATTTGTTCAA TTCTGAGATG1921 AAAGAAAAAC TGCCCTGTGG TGAGAGGTGA GACATGTTTG CAGCAATGCT GCTTTGTTAT1981 TCTTTACTCC ACTGAGATGT TTGGGTGGAG AGAAACATAA ATCTGGCTTA CGTGCACGTC2041 CAGTCATAGT ACCTTCCCTT GAACTTAATT ATGACATAGA TTCTATTGCT CACGTTTGTT2101 GTTGACCTTT CCCCTTATTA TCACCCTGCC CTCCTACTAC ATTCCTTTTT GCTGAAATAA2161 TGAAGATAAT AATCAATAAA AACTGAGGGA ACCCAGAGAC TGGTGTCGGT GCAGGTCCTT2221 GGTATGCTGA GCGCTGGTCC CCTGGGCCCA CTGTTGTTTC TCTATAAAAA AAAAAAAAAA2281 AAA
B: nucleotide sequence (SEQ ID NO:15) length: 80 amino acid/11 MMGNMVRPVN SMGTRPLPHC FCHKVNALVR GNAVGNTMMV GKAFHESTDG SLGRSIACRI 61 GKPISQVSVY SSEDKALTFP
C. ( SEQ ID NO:14 ) :FP14381:445 ATG :685 TGA :8594.62 1 GGA TCA ATC ACC CCA GCC AAC ACT GTA ACT CCC TTC TTA GCC TGT TGA CTT AAA GGT AGG 60 61 AGG AGC CCA AAG TGT CTA GGT GGC AAT CTC AGC TTC CGG TTT AAT GGA ATC ATT CTT GTG 120 121 TCT CCT GGT GGC AGT GTT CCT CCC CCT GGA ACT AAG ACC TCC AAG CCA GCA GAA TGT AAT 180 181 GTC ATG GGA ACA GGA AGA AAA ATT TTG CTT GTG GAA CAC TAT GGG TGA TGG TGA GTT GTG 240 241 CCA CTT CTA CTT CCA TCC CTT GAT TCC TGG ACC CGT GAA TCC TGG CTA TGG GAG AAA CAC 300 301 TAT CAT ATA TTG GAT GCT GAT TTA GAG CAT ACA TGG CTT TCT AGA GAA CTT TGC CCC AGG 360 361 CCT GCA AAG TAT TGT CAC CTA GTT GGC ATT GTA ATT GTG ACT TCA AAA GGC CAT TCC ACC 420 421 ATT CTA TCA ATC CAG CTG CTT CAG ATG ATG GGG AAT ATG GTA AGA CCA GTA AAT TCC ATG 480 1 Met Met Gly Asn Met Val Arg Pro Val Asn Ser Met 12 481 GGC ACG AGA CCA CTG CCA CAC TGC TTT TGC CAT AAA GTG AAT GCG TTG GTC AGA GGC AAT 540 13 Gly Thr Arg Pro Leu Pro His Cys Phe Cys His Lys Val Asn Ala Leu Val Arg Gly Asn 32 541 GCT GTT GGG AAT ACC ATG ATG GTG GGT AAG GCA TTT CAT GAG TCC ACG GAT GGT AGT CTT 600 33 Ala Val Gly Asn Thr Met Met Val Gly Lys Ala Phe His Glu Ser Thr Asp Gly Ser Leu 52 601 GGC AGA AGC ATT GCA TGC AGG ATA GGC AAA CCC ATA TCC CAA GTA AGT GTC TAT TCC AGT 660 53 Gly Arg Ser Ile Ala Cys Arg Ile Gly Lys Pro Ile Ser Gln Val Ser Val Tyr Ser Ser 72 661 GAG GAC AAA GCT TTG ACT TTT CCA TGA TGG GAG AGG TCC AAT ATA ATC AAC CTG CCA CCA 720 73 Glu Asp Lys Ala Leu Thr Phe Pro *** 81 721 GGT AGC TGG CTG ATT ACC CCG AGG AAT GGT GCC ATA TTG AGG ACT CAG TGT TGG TGT CTG 780 781 CTG CTG GCA AAT TTG GCA CTC AGC AGT GGC TGT AGC CAG GTC AGC CTT GGT GAG TGG AAG 840 841 TCC ATA TTG CTG AAC CCA TGT GTA ACC TCC ATC CCT GCC ACG ATG GCC ACT TTG TTC GTG 900 901 GGC CCA TTG GGC GAT CAC AGG GGT GGC TGG GGA AGG AGG CTG AGT GGT GTC CAT AGA TCG 960 961 GGT CAT CCT ATC CAC TTG ATT ATT AAA ATC CTC CTC TGC TGA GGT CAC CTG TTG GTG GGC 10201021 ACC TAC ATG GAA TAC AAA AGT ATT CAC AGT TTT TGA CCA CGC AGA AGA GGT TCA TCC ACA 10801081 TAC CTC TTC CCC AAC TTT GTC ACA AAT TTT CCA GTC ATG CTT CTT CCA AGT CCC TGA CCA 11401141 TCC AGC CAA ACC ACT GGC CAC AGC CAA TGA ATC AGT ATA TAA TCA CAT ATC TGG CCA TTT 12001201 CTC CTT CCA TGC AAA GTG CAC AAC TAG GTG CAC TGC TCA AAG TTC TGC TTA CTG GGA AGA 12601261 TTC CTC TTC ACT GCT GTC CTT CAG GGG TGT CCT AGA AAG GGG GGC TGT AGT GCT CCA GTT 13201321 GTC CAC TTT TGT GGG GAA AAG AAA GAG AGA TCA GAC TGT TAC TGT GTC TAA GTA GAA AGG 13801381 GAA GAC ATA AGA CAC TCC ATT TTG AAA AAG ACC TGT ACT TTA AAT AAT TGC TTT GCT GAG 14401441 ATG TTG TTA ATT TGT AGC TTT GCC CCA GCC ACT TTG ACC CAA CCA CTT TGA CAC AAC CTG 15001501 GAG CTC ACA AAA ACA TGT GTT GTA TGA AAT CAA GGT TTA AGG GAT CTA GGA CTG TGC AGG 15601561 ACG TGC CTT GTT AAC AAA ATG TTT ACA AGC AGT ATA CTT GGT AAA AGT CAT CGC CAT TCT 16201621 CTA GTC TCA ATA AAC CAG GGG CAC AAT GCA CTG TGG AAA GCCACA GGG ACC TCC ACC CTT 16801681 GAA AGC GGG GTA TTG TCC AAG GTT TCT CCC CAT GTG ATA GTC TAA AAT ATG GCC TCA CAG 17401741 GAT TAG AAA GAC CTG ACT GTC CCC CAG CCC GAC ACC CAT AAA GGG TCT GTG CTG AGG TGG 18001801 ATT AGT AAA AGA GGA AAG CCT CTT GCA GTT GAG ATA GCG GAA AGC CAG TCT CCT GCC TGC 18601861 CCC TGG GAA CTG AAT GTC TCA GTA TAA AAC CCA GTT GTA CAT TTG TTC AAT TCT GAG ATG 19201921 AAA GAA AAA CTG CCC TGT GGT GAG AGG TGA GAC ATG TTT GCA GCA ATG CTG CTT TGT TAT 19801981 TCT TTA CTC CAC TGA GAT GTT TGG GTG GAG AGA AAC ATA AAT CTG GCT TAC GTG CAC GTC 20402041 CAG TCA TAG TAC CTT CCC TTG AAC TTA ATT ATG ACA TAG ATT CTA TTG CTC ACG TTT GTT 21002101 GTT GAC CTT TCC CCT TAT TAT CAC CCT GCC CTC CTA CTA CAT TCC TTT TTG CTG AAA TAA 21602161 TGA AGA TAA TAA TCA ATA AAA ACT GAG GGA ACC CAG AGA CTG GTG TCG GTG CAG GTC CTT 22202221 GGT ATG CTG AGC GCT GGT CCC CTG GGC CCA CTG TTG TTT CTC TAT AAA AAA AAA AAA AAA 2280
2281???????????????????????????????????????????AAA2283
6.FP15331
A: ( SEQ ID NO:16 ) :1073 1 GGGGCCTGGC CTGGCCTGGT GATGCCACTA TTTCCTTAAG AGGAGAGTGG ACATTCCGGA 61 TTATTGTCGG GGGAGTCTCA TTTCTGCTGC TGTAACAAAA TACCACAGAC TGGGTCATTT 121 AGAAACCATA GAAACTGATT TCGTACTGTT CTAGAGGCTG GGAAGTCCCA GATCAAGGTG 181 CCAGCAGGTT TGGTGTCGTG AGGGCCACTC TCTGCTTCCA AGATGGTCCC TCCTTGCTGT 241 GTCCTCTGGA GGGGAAGACT GCTGTGTCCT CACGCTGCAG AAGGTGGAAG GGCGAGAGAT 301 GGCAAACCAG GCTTACAAGC CCTTTGAAAA GGGCCCTCAT CCCATCCTGG AGAGCTCTGC 361 CCTATCACAT TGGCGATTAT GTTTCAATAT GTAAATTTTG GGAGATGCAT TCAGACCACA 421 GGAGGAAGGG AAAAGAAAGA GCCCCCAGGT TGAAAGCCAG TTTAGGTTTG AGTCCCAGCC 481 TTTCCCCTTG CTGTGTGACC TGGAGTAAAT TCCTCAGCCT CTGTGAGTCT CCCATTCCAC 541 CCCAGGATTG TTGTGAAAAC ACAGTAAGGC AAGCGGGTAA GAAAGCACCC AGCAAGGTGT 601 CAAGTGCCCC ACCAGGAGGG GTGGGGTGGC AATTTCCAGC ATTGCTTGGA ACCAGAATAG 661 CAACGTCTTC TGAGGTTCCA GAATTTGGAC TCTGAACCCA TTGAGAAGAA TGAAATCAAC 721 TTTGGCGTCA ATCAGCCACT GATTGCCATG TGGCCTGGAC GAGTCATCTC ATTCAACTTC 781 ACTTTCAGCC GGACGCTGTG ACTCGGGCCT GTAACCCCAG CACTTTGGGA AGCTGAGGTG 841 GGTGGATCGC TTGAGCCCAG GAGTTAGAGA CCAGCCTGGG CAACCTGGCG AAACCTCGTC 901 TCTACAAAAA AATACAAAAA ATTAGCTGGG CCTGGTGGCG TGTGCCTGTA GTCCCGGCTA 961 CTCAGGAGTC TGAGGTGGGA AGATCCACTG AGCCCAGGAG GTTGAGGCTG CACTCCAGCC1021 TGGGCGACAG GAGTGAAACC CTGTCTCAAA AAGTTAAAAA AAAAAAAAAA AAA
B: nucleotide sequence (SEQ ID NO:18) length: 96 amino acid/11 MHSDHRRKGK ERAPRLKASL GLSPSLSPCC VTWSKFLSLC ESPIPPQDCC ENTVRQAGKK 61 APSKVSSAPP GGVGWQFPAL LGTRIATSSE VPEFGL
C. ( SEQ ID NO:17 ) :FP15331:405 ATG :693 TGA :10260.28 1 GG GGC CTG GCC TGG CCT GGT GAT GCC ACT ATT TCC TTA AGA GGA GAG TGG ACA TTC CGG 59 60 ATT ATT GTC GGG GGA GTC TCA TTT CTG CTG CTG TAA CAA AAT ACC ACA GAC TGG GTC ATT 119 120 TAG AAA CCA TAG AAA CTG ATT TCG TAC TGT TCT AGA GGC TGG GAA GTC CCA GAT CAA GGT 179 180 GCC AGC AGG TTT GGT GTC GTG AGG GCC ACT CTC TGC TTC CAA GAT GGT CCC TCC TTG CTG 239 240 TGT CCT CTG GAG GGG AAG ACT GCT GTG TCC TCA CGC TGC AGA AGG TGG AAG GGC GAG AGA 299 300 TGG CAA ACC AGG CTT ACA AGC CCT TTG AAA AGG GCC CTC ATC CCA TCC TGG AGA GCT CTG 359 360 CCC TAT CAC ATT GGC GAT TAT GTT TCA ATA TGT AAA TTT TGG GAG ATG CAT TCA GAC CAC 419 1 Met His Ser Asp His 5 420 AGG AGG AAG GGA AAA GAA AGA GCC CCC AGG TTG AAA GCC AGT TTA GGT TTG AGT CCC AGC 479 6 Arg Arg Lys Gly Lys Glu Arg Ala Pro Arg Leu Lys Ala Ser Leu Gly Leu Ser Pro Ser 25 480 CTT TCC CCT TGC TGT GTG ACC TGG AGT AAA TTC CTC AGC CTC TGT GAG TCT CCC ATT CCA 539 26 Leu Ser Pro Cys Cys Val Thr Trp Ser Lys Phe Leu Ser Leu Cys Glu Ser Pro Ile Pro 45 540 CCC CAG GAT TGT TGT GAA AAC ACA GTA AGG CAA GCG GGT AAG AAA GCA CCC AGC AAG GTG 599 46 Pro Gln Asp Cys Cys Glu Asn Thr Val Arg Gln Ala Gly Lys Lys Ala Pro Ser Lys Val 65 600 TCA AGT GCC CCA CCA GGA GGG GTG GGG TGG CAA TTT CCA GCA TTG CTT GGA ACC AGA ATA 659 66 Ser Ser Ala Pro Pro Gly Gly Val Gly Trp Gln Phe Pro Ala Leu Leu Gly Thr Arg Ile 85 660 GCA ACG TCT TCT GAG GTT CCA GAA TTT GGA CTC TGA ACC CAT TGA GAA GAA TGA AAT CAA 719 86 Ala Thr Ser Ser Glu Val Pro Glu Phe Gly Leu *** 97 720 CTT TGG CGT CAA TCA GCC ACT GAT TGC CAT GTG GCC TGG ACG AGT CAT CTC ATT CAA CTT 779 780 CAC TTT CAG CCG GAC GCT GTG ACT CGG GCC TGT AAC CCC AGC ACT TTG GGA AGC TGA GGT 839 840 GGG TGG ATC GCT TGA GCC CAG GAG TTA GAG ACC AGC CTG GGC AAC CTG GCG AAA CCT CGT 899 900 CTC TAC AAA AAA ATA CAA AAA ATT AGC TGG GCC TGG TGG CGT GTG CCT GTA GTC CCG GCT 959 960 ACT CAG GAG TCT GAG GTG GGA AGA TCC ACT GAG CCC AGG AGG TTG AGG CTG CAC TCC AGC 10191020 CTG GGC GAC AGG AGT GAA ACC CTG TCT CAA AAA GTT AAA AAA AAA AAA AAA AAA 1073
<110〉<120〉NIH/3T3<130〉017520<160〉18<170〉PatentIn version 3.0<210〉1<211〉1837<212〉DNA<213〉 ( Homo sapiens )<400〉1gctaaatccc cttgtaaatt taactgttag tccaaagagg aacagctctt tggacactag 60gaaaaaacct tgtagagaga gtaaaaaatt taacacccat agtaggccta aaagcagcca 120ccaattaaga aagcgttcaa gctcaacacc cactacctaa aaaaccccat ctctactaaa 180aaaaaaaaaa tacaaaaaat tagccaggca tggtggcggg cgcctgtagt cccagctact 240ccggaggctg aggcaggaga atcgcttgaa cctgggaggc tgaggttgca gtgagccgag 300atcgcgccat tgcactccag cctcgacaac aagagccaaa ctccgtctca aaaaaaaaaa 360ttaaataaca gcaagcaact gcatgcacgt ctgggggcgg tgtccggggt gagaaaggcc 420ccgccagcaa tccatcccac aatcagcgat ggctgagggg gtctggacct cgcgggacgg 480ggctgcacgc ccccaagcaa atgcacagcg cggctaaatt ggattcgaca gcaccggaaa 540cggcgactcc cacttggggc gctgcggaca cacgagtcga ggctgccttc caggaagcaa 600acaaaaaaag gggggaaaag ggggggaaag aaagaaagag aaaaaggagg gcgagtggcg 660agcaggggcc tcggccgcca cccacacgcc ccgaagcgtg ctcgtccccc gcgcggggct 720cccggccgcc gccctcggcc atcggctgct ccccggtggc ccaggcctcg gactccgcgg 780ccggcccggc gcggcccagc gccctcaggt gcgtaccccg cccccgccgc cgacgccgcc 840gacgccgcca ttaagggcgg gttgcctttc ggaacgtcct cctcctgagg gcctggggaa 900gggaggccgc ccggccgcag cgggaggtgg ccccccggga caccccggcg ccccgaggcg 960aggcaccccc gaaccccgat ccctgctggc aggaccagag gtgtgagggt gggggcggag 1020aagccttgcc gcgggggcaa tggtcgtacg cacggagcgc acatccctct ccttcctgat 1080tggccgagcg ggggtgtgcg tgatgccacg ctccgcccgt cgtacgtggg gcgctcgcgg 1140gggcgggggc cgccgctgtt accaggcaac tgcgccccgg atccgccccc tgacgtcacg 1200cgttgcctag aggcccaggt tgtgggtttt gtccgtgggt atggtcctcg cgacggcctc 1260cggggatctg tttgttggcg gaaaaccaat ccagactccc aaggaaaaag gccgaggccc 1320gggaatttcc cgttgcaatt ctggtttcga gttctagggg gaaaaaggct cgcaaggctg 1380tattctccat ccctcaaagc ccaagctttc ttgtttctta ataacagctt cgttgagatc 1440cattgtaaaa ttcacgtttt aagagtgaat aattcagtgc acagagctgt gcaacctttg 1500ccactaattg cagaacgctt tcagcacccg aggagaagaa accccaaccc cattaggccg 1560tcattccccg gtccccaccc cgtccctatc cccagcccct ggcaatcact tttgtctccg 1620tggatttgcc tattctggac atttcgtgtg gatagaatca tcccaagaag ttttttgtgt 1680gtctggcttc tttccttctt tatggctgaa taaaaatcca tgatatgaaa aaaaaaaaaa 1740aaaaaaaaaa aaaaaaaaaa aaaaaaaaaa aaaaaaaaaa aaaaaaaaaa aaaaaaaaaa 1800aaaaaaaaaa aaaaaaaaaa aaaaaaaaaa aaaaaaa 1837<210〉2<211〉1837<212〉DNA<213〉 ( Homo sapiens )<220〉<221〉CDS<222〉 ( 501 ) .. ( 851 )<400〉2gctaaatccc cttgtaaatt taactgttag tccaaagagg aacagctctt tggacactag 60gaaaaaacct tgtagagaga gtaaaaaatt taacacccat agtaggccta aaagcagcca 120ccaattaaga aagcgttcaa gctcaacacc cactacctaa aaaaccccat ctctactaaa 180aaaaaaaaaa tacaaaaaat tagccaggca tggtggcggg cgcctgtagt cccagctact 240ccggaggctg aggcaggaga atcgcttgaa cctgggaggc tgaggttgca gtgagccgag 300atcgcgccat tgcactccag cctcgacaac aagagccaaa ctccgtctca aaaaaaaaaa 360ttaaataaca gcaagcaact gcatgcacgt ctgggggcgg tgtccggggt gagaaaggcc 420ccgccagcaa tccatcccac aatcagcgat ggctgagggg gtctggacct cgcgggacgg 480ggctgcacgc ccccaagcaa atg cac agc gcg gct aaa ttg gat tcg aca gca 533
Met?His?Ser?Ala?Ala?Lys?Leu?Asp?Ser?Thr?Ala
1???????????????5???????????????????10ccg?gaa?acg?gcg?act?ccc?act?tgg?ggc?gct?gcg?gac?aca?cga?gtc?gag??????581Pro?Glu?Thr?Ala?Thr?Pro?Thr?Trp?Gly?Ala?Ala?Asp?Thr?Arg?Val?Glu
15??????????????????20??????????????????25gct?gcc?ttc?cag?gaa?gca?aac?aaa?aaa?agg?ggg?gaa?aag?ggg?ggg?aaa??????629Ala?Ala?Phe?Gln?Glu?Ala?Asn?Lys?Lys?Arg?Gly?Glu?Lys?Gly?Gly?Lys
30??????????????????35??????????????????40gaa?aga?aag?aga?aaa?agg?agg?gcg?agt?ggc?gag?cag?ggg?cct?cgg?ccg??????677Glu?Arg?Lys?Arg?Lys?Arg?Arg?Ala?Ser?Gly?Glu?Gln?Gly?Pro?Arg?Pro
45??????????????????50??????????????????55cca?ccc?aca?cgc?ccc?gaa?gcg?tgc?tcg?tcc?ccc?gcg?cgg?ggc?tcc?cgg??????725Pro?Pro?Thr?Arg?Pro?Glu?Ala?Cys?Ser?Ser?Pro?Ala?Arg?Gly?Ser?Arg60??????????????????65??????????????????70??????????????????75ccg?ccg?ccc?tcg?gcc?atc?ggc?tgc?tcc?ccg?gtg?gcc?cag?gcc?tcg?gac??????773Pro?Pro?Pro?Ser?Ala?Ile?Gly?Cys?Ser?Pro?Val?Ala?Gln?Ala?Ser?Asp
80??????????????????85??????????????????90tcc?gcg?gcc?ggc?ccg?gcg?cgg?ccc?agc?gcc?ctc?agg?tgc?gta?ccc?cgc??????821Ser?Ala?Ala?Gly?Pro?Ala?Arg?Pro?Ser?Ala?Leu?Arg?Cys?Val?Pro?Arg
95??????????????????100?????????????????105ccc?cgc?cgc?cga?cgc?cgc?cga?cgc?cgc?cat?taagggcggg?ttgcctttcg????????871Pro?Arg?Arg?Arg?Arg?Arg?Arg?Arg?Arg?His
110 115gaacgtcctc ctcctgaggg cctggggaag ggaggccgcc cggccgcagc gggaggtggc 931cccccgggac accccggcgc cccgaggcga ggcacccccg aaccccgatc cctgctggca 991ggaccagagg tgtgagggtg ggggcggaga agccttgccg cgggggcaat ggtcgtacgc 1051acggagcgca catccctctc cttcctgatt ggccgagcgg gggtgtgcgt gatgccacgc 1111tccgcccgtc gtacgtgggg cgctcgcggg ggcgggggcc gccgctgtta ccaggcaact 1171gcgccccgga tccgccccct gacgtcacgc gttgcctaga ggcccaggtt gtgggttttg 1231tccgtgggta tggtcctcgc gacggcctcc ggggatctgt ttgttggcgg aaaaccaatc 1291cagactccca aggaaaaagg ccgaggcccg ggaatttccc gttgcaattc tggtttcgag 1351ttctaggggg aaaaaggctc gcaaggctgt attctccatc cctcaaagcc caagctttct 1411tgtttcttaa taacagcttc gttgagatcc attgtaaaat tcacgtttta agagtgaata 1471attcagtgca cagagctgtg caacctttgc cactaattgc agaacgcttt cagcacccga 1531ggagaagaaa ccccaacccc attaggccgt cattccccgg tccccacccc gtccctatcc 1591ccagcccctg gcaatcactt ttgtctccgt ggatttgcct attctggaca tttcgtgtgg 1651atagaatcat cccaagaagt tttttgtgtg tctggcttct ttccttcttt atggctgaat 1711aaaaatccat gatatgaaaa aaaaaaaaaa aaaaaaaaaa aaaaaaaaaa aaaaaaaaaa 1771aaaaaaaaaa aaaaaaaaaa aaaaaaaaaa aaaaaaaaaa aaaaaaaaaa aaaaaaaaaa 1831aaaaaa 1837<210〉3<211〉117<212〉PRT<213〉 ( Homo sapiens )<400〉3Met His Ser Ala Ala Lys Leu Asp Ser Thr Ala Pro Glu Thr Ala Thr1 5 10 15Pro Thr Trp Gly Ala Ala Asp Thr Arg Val Glu Ala Ala Phe Gln Glu
20??????????????????25??????????????????30Ala?Asn?Lys?Lys?Arg?Gly?Glu?Lys?Gly?Gly?Lys?Glu?Arg?Lys?Arg?Lys
35??????????????????40??????????????????45Arg?Arg?Ala?Ser?Gly?Glu?Gln?Gly?Pro?Arg?Pro?Pro?Pro?Thr?Arg?Pro
50??????????????????55??????????????????60Glu?Ala?Cys?Ser?Ser?Pro?Ala?Arg?Gly?Ser?Arg?Pro?Pro?Pro?Ser?Ala65??????????????????70??????????????????75??????????????????80Ile?Gly?Cys?Ser?Pro?Val?Ala?Gln?Ala?Ser?Asp?Ser?Ala?Ala?Gly?Pro
85??????????????????90??????????????????95Ala?Arg?Pro?Ser?Ala?Leu?Arg?Cys?Val?Pro?Arg?Pro?Arg?Arg?Arg?Arg
100?????????????????105?????????????????110Arg?Arg?Arg?Arg?His
115<210〉4<211〉2182<212〉DNA<213〉 ( Homo sapiens )<400〉4gcagagaaat ttgaaaattg gcaggtgcac tttcttgacc tttccaaaaa tagtctgagt 60cactttcact ttcagccttc aaactgtgtt gaatgaaacc tttgtgcagt ttacagaaag 120tgaagaactg tttggcaaga gagagaagtt cgagctccta atagcctcgg ctgcattgag 180taacatttct tttgagttgt ctattaacac tttcctgaaa catgcttttt atgacgccta 240gaacttgtgt aagagtgact gtaatttgag ttatttaaaa atgtaagtac aagaaatgtg 300tcacacgcca taagagctag gaaatgacag ctcacattca tcttggtgga aggaaactct 360aattattgga agatgtgatt ggagtatttg ttcttaatac ctacggtggc tctgttatat 420gcttgcctaa caccagtatt ggcttgcaaa taacactgaa aagctccttt cttttcctct 480ggtctttgtg ggaaggcatg gtatgagtcg agattgctaa accactcttc tgagaggact 540cagagagagt gtttatccta gactatccat ggccctggta cttctgagtt cagttgtggt 600gtgatctcat tagtccaggc tcagaatggc tcggtaacct caaaactcca agccctcggt 660gcttgctttg cttccctaga cttgcagctt atgtacgccc acatgtgctt catgcgtatt 720aaaaatgctt gcatgtgtag ataggaagat atatgttgac tgtcctgaaa aacttgacat 780acctaacatt taaaattgtt ttgagtttcc cccggggata aactagtctt caaatgtaaa 840cgtgatgagc agcgtagggg ctatggtacc agagaaaaga gccgaatctc ggccctggtc 900cagccctacc tctcgtgctc tgtcacctgc agcagaggtg gagtgggggc catgtctgtg 960agcgggacct catcttgtct attcctcaga cccacccaag ggcagggatt cccaaaactg 1020ctggtacctg taagaggtat tgtattcttg gactccattc cataacctct catcaggatt 1080ctgggtttgg aactctagaa tcaatgttga ggaaaaatag aacttggcga ttttattttt 1140ctagatataa ttcacatacc ataaaagcca ctctttaaat tgtacaattc agtggttttt 1200tagtatattc agagttgtac agccatgacc actagctaat tcagaatatt ttcattgcct 1260cccaacaagc ctagtactca tgagtagtca ctcccttgcc cattccctcc acccccaagc 1320ccctggcaac cactaatcta ctttctgtct ctatggattt gcctatttga gacattcata 1380tgaatggaat tatataatat gtagactttt gtatctgttt ttttttcatt tagcataaaa 1440attttcaaga tttgtccaca gtgtagtggt gtctcagtac ttctttcctt tttatcactg 1500aaaatacttc attgatgtat atgtcatatt ttgttatcta ctcatcaatt gatgaatact 1560tgtattgttt ccactttggc tgttacaaat aatgctgtta tgaacatgtg tgtacaagta 1620tttgtgtggg tacatgttat ttctcttggg catacctaca gatggaatta ctggatcata 1680tgacaacttt atgtttaact ttttgaaaaa ctacaaaacc aacaagctgt accattttgt 1740aatcccacca gcaatgaata gggttctaat ttttccacat cttcatcaat atttgttatt 1800gatctttttg attatagcca atctagtgag tgtgaactgg tatcttattg taattgtgat 1860tttgatttgc aattccctaa tgatgttgaa cagatgttca tataattgtt ggccatttat 1920atagtcttta gagatatatc tgttttgccc atttctaact gagcaaaaca gacaaaaatt 1980gagttgtgaa tgttctttat gtatactgta tacaagcccc ttaacagata tatgatttgc 2040aaatcttttc tgttctgtag gttgtttctc catgttcttg ttggtatgct tggaagcata 2100aaagttttta ttctggtgga gtccaaaaaa aaaaaaaaaa aaaaaaaaaa aaaaaaaaaa 2160aaaaaaaaaa aaaaaaaaaa aa 2182<210〉5<211〉2182<212〉DNA<213〉 ( Homo sapiens )<220〉<221〉CDS<222〉 ( 1634 ) .. ( 1921 )<400〉5gcagagaaat ttgaaaattg gcaggtgcac tttcttgacc tttccaaaaa tagtctgagt 60cactttcact ttcagccttc aaactgtgtt gaatgaaacc tttgtgcagt ttacagaaag 120tgaagaactg tttggcaaga gagagaagtt cgagctccta atagcctcgg ctgcattgag 180taacatttct tttgagttgt ctattaacac tttcctgaaa catgcttttt atgacgccta 240gaacttgtgt aagagtgact gtaatttgag ttatttaaaa atgtaagtac aagaaatgtg 300tcacacgcca taagagctag gaaatgacag ctcacattca tcttggtgga aggaaactct 360aattattgga agatgtgatt ggagtatttg ttcttaatac ctacggtggc tctgttatat 420gcttgcctaa caccagtatt ggcttgcaaa taacactgaa aagctccttt cttttcctct 480ggtctttgtg ggaaggcatg gtatgagtcg agattgctaa accactcttc tgagaggact 540cagagagagt gtttatccta gactatccat ggccctggta cttctgagtt cagttgtggt 600gtgatctcat tagtccaggc tcagaatggc tcggtaacct caaaactcca agccctcggt 660gcttgctttg cttccctaga cttgcagctt atgtacgccc acatgtgctt catgcgtatt 720aaaaatgctt gcatgtgtag ataggaagat atatgttgac tgtcctgaaa aacttgacat 780acctaacatt taaaattgtt ttgagtttcc cccggggata aactagtctt caaatgtaaa 840cgtgatgagc agcgtagggg ctatggtacc agagaaaaga gccgaatctc ggccctggtc 900cagccctacc tctcgtgctc tgtcacctgc agcagaggtg gagtgggggc catgtctgtg 960agcgggacct catcttgtct attcctcaga cccacccaag ggcagggatt cccaaaactg 1020ctggtacctg taagaggtat tgtattcttg gactccattc cataacctct catcaggatt 1080ctgggtttgg aactctagaa tcaatgttga ggaaaaatag aacttggcga ttttattttt 1140ctagatataa ttcacatacc ataaaagcca ctctttaaat tgtacaattc agtggttttt 1200tagtatattc agagttgtac agccatgacc actagctaat tcagaatatt ttcattgcct 1260cccaacaagc ctagtactca tgagtagtca ctcccttgcc cattccctcc acccccaagc 1320ccctggcaac cactaatcta ctttctgtct ctatggattt gcctatttga gacattcata 1380tgaatggaat tatataatat gtagactttt gtatctgttt ttttttcatt tagcataaaa 1440attttcaaga tttgtccaca gtgtagtggt gtctcagtac ttctttcctt tttatcactg 1500aaaatacttc attgatgtat atgtcatatt ttgttatcta ctcatcaatt gatgaatact 1560tgtattgttt ccactttggc tgttacaaat aatgctgtta tgaacatgtg tgtacaagta 1620tttgtgtggg tac atg tta ttt ctc ttg ggc ata cct aca gat gga att 1669
Met?Leu?Phe?Leu?Leu?Gly?Ile?Pro?Thr?Asp?Gly?Ile
1???????????????5???????????????????10act?gga?tca?tat?gac?aac?ttt?atg?ttt?aac?ttt?ttg?aaa?aac?tac?aaa?????1717Thr?Gly?Ser?Tyr?Asp?Asn?Phe?Met?Phe?Asn?Phe?Leu?Lys?Asn?Tyr?Lys
15??????????????????20??????????????????25acc?aac?aag?ctg?tac?cat?ttt?gta?atc?cca?cca?gca?atg?aat?agg?gtt?????1765Thr?Asn?Lys?Leu?Tyr?His?Phe?Val?Ile?Pro?Pro?Ala?Met?Asn?Arg?Val
30??????????????????35??????????????????40cta?att?ttt?cca?cat?ctt?cat?caa?tat?ttg?tta?ttg?atc?ttt?ttg?att?????1813Leu?Ile?Phe?Pro?His?Leu?His?Gln?Tyr?Leu?Leu?Leu?Ile?Phe?Leu?Ile45??????????????????50??????????????????55??????????????????60ata?gcc?aat?cta?gtg?agt?gtg?aac?tgg?tat?ctt?att?gta?att?gtg?att?????1861Ile?Ala?Asn?Leu?Val?Ser?Val?Asn?Trp?Tyr?Leu?Ile?Val?Ile?Val?Ile
65??????????????????70??????????????????75ttg?att?tgc?aat?tcc?cta?atg?atg?ttg?aac?aga?tgt?tca?tat?aat?tgt?????1909Leu?Ile?Cys?Asn?Ser?Leu?Met?Met?Leu?Asn?Arg?Cys?Ser?Tyr?Asn?Cys
80??????????????????85??????????????????90tgg?cca?ttt?ata?tagtctttag?agatatatct?gttttgccca?tttctaactg?????????1961Trp?Pro?Phe?Ile
95agcaaaacag acaaaaattg agttgtgaat gttctttatg tatactgtat acaagcccct 2021taacagatat atgatttgca aatcttttct gttctgtagg ttgtttctcc atgttcttgt 2081tggtatgctt ggaagcataa aagtttttat tctggtggag tccaaaaaaa aaaaaaaaaa 2141aaaaaaaaaa aaaaaaaaaa aaaaaaaaaa aaaaaaaaaa a 2182<210〉6<211〉96<212〉PRT<213〉homo sapiens (Homo sapiens)<400〉6Met Leu Phe Leu Leu Gly Ile Pro Thr Asp Gly Ile Thr Gly Ser Tyr1 5 10 15Asp Asn Phe Met Phe Asn Phe Leu Lys Asn Tyr Lys Thr Asn Lys Leu
20??????????????????25??????????????????30Tyr?His?Phe?Val?Ile?Pro?Pro?Ala?Met?Asn?Arg?Val?Leu?Ile?Phe?Pro
35??????????????????40??????????????????45His?Leu?His?Gln?Tyr?Leu?Leu?Leu?Ile?Phe?Leu?Ile?Ile?Ala?Asn?Leu
50??????????????????55??????????????????60Val?Ser?Val?Asn?Trp?Tyr?Leu?Ile?Val?Ile?Val?Ile?Leu?Ile?Cys?Asn65??????????????????70??????????????????75??????????????????80Ser?Leu?Met?Met?Leu?Asn?Arg?Cys?Ser?Tyr?Asn?Cys?Trp?Pro?Phe?Ile
85 90 95<210〉7<211〉1962<212〉DNA<213〉 ( Homo sapiens )<400〉7gcaagaattg gttcttttcg gggttctctc ctatatccca tacaatcaaa caataaatat 60gtgttgaata aatcacttgt gcaaattcta aaattcacat atgaccctgt attttatcat 120atctcccata gaataggtga gaaccagaga aaaatattgt taagcccagg agcccaagct 180atatgatcaa ctggaaagac tcagtaggta atttgttcct agaaagcagc ctatggcaac 240aaatgattga aatttccacc ttgataaaat gacgaattac tacatgtcag agatttctag 300tttgcttgta aataatgaaa gctgtgatga taaatcccag attttcaccc tgaggtaccc 360tatcagcaaa acagtaaatg ccattcattc ttctggaggc cttgccaaaa aaagtcattg 420cctaactaaa aaatatgctg gagtctcaca ttttgtctta aaatttcatg tgaattttgg 480attttatgcc acaatacata tttattataa tattaacatt aaattaccag ttaaatttct 540taaatttttc taaaaaattt tgaaaaagct gatagtccca gaagatgtat tatgtttagc 600ttgtgtcttg gcatatcatc aagtccaagg agcacatgac agatgagaaa ggtgagtgta 660atccatggaa cttggtcaat gcagtaggtt gaattgtgtc cccccaaaag atatgcacaa 720gctcagctgg gtgtggtggc tcacacctgt aatcccagca ctgtgggagg ccagggcagg 780cagatcgctg gaggtcagga gtttgagact aggctggcca acatggtgaa atcccatctc 840tactaaaagt acaaaaatta gccgggcgtg atggcaggtg cccatagtcc cagctactca 900ggaggctgag gcaggagaat cgcttgaacc tgggaggcag agtttgcagt gagacaagat 960tgcaccactg cactatagcc tgggtgacag agcaagactc tgcctcaaaa aaaaaaaaaa 1020aagatatgca taagctctag ctaccccact cctttttctg tgaatgtgac cttatttgga 1080tatacgggtc tttgcagata taattaagtt gaggatctca aaatgagata atgttggatt 1140taatccaatg agagagatct gagacccaaa gaaacagggg agacagtcat atgaagaagg 1200aggctgctat ggtttggatg tggtttgtcc ccactaaaac tcctgttgaa atttgatccc 1260cagtgtggca gtattgggag atgggaagtg ttttggggtc atgggagcca gggtgtctca 1320tgaatagggt taatgccctc ccagtggaga gcattctcat tcttgtggga ctggattaat 1380tactgaagag caggttgtta taacaagtga gttcagcctc ctagactctc tctcttgctt 1440cctctctcac catgtgatct tttggcacac acccgcttcc ccttcctctt tcttccatga 1500gttgaagtgg tgtgggaccc tgaccagttg cagctaccca atcttgaatt tccagcctac 1560agaactgtga gctaaataag cctcttttct ttataaatta cccagtctaa agtgttctgt 1620tatagcaaca aaaataatgg actaagaaaa tggtaggaga cgccctggct tggtggctca 1680tgcctgtaat cccagcactt tgggaggcca aggcaggcgg atcgcctgag gtcaggagtt 1740caagaccagc ctgaccaaca tggtgaagcc ccatctctac taaaaataca aaaattagcc 1800ggccttggtg gcacacacct ataatcccag ctccttggga ggctgaggca ggagaatttc 1860ttgaacccag gaggcagagg ttgcaatgag ctgagattct gccactgcac tccagcctgg 1920gtgacagagc aagactgtgt ctggaaaaaa aaaaaaaaaa aa 1962<210〉8<211〉1962<212〉DNA<213〉 ( Homo sapiens )<220〉<221〉CDS<222〉 ( 269 ) .. ( 550 )<400〉8gcaagaattg gttcttttcg gggttctctc ctatatccca tacaatcaaa caataaatat 60gtgttgaata aatcacttgt gcaaattcta aaattcacat atgaccctgt attttatcat 120atctcccata gaataggtga gaaccagaga aaaatattgt taagcccagg agcccaagct 180atatgatcaa ctggaaagac tcagtaggta atttgttcct agaaagcagc ctatggcaac 240aaatgattga aatttccacc ttgataaa atg acg aat tac tac atg tca gag 292
Met?Thr?Asn?Tyr?Tyr?Met?Ser?Glu
1???????????????5att?tct?agt?ttg?ctt?gta?aat?aat?gaa?agc?tgt?gat?gat?aaa?tcc?cag??????340Ile?Ser?Ser?Leu?Leu?Val?Asn?Asn?Glu?Set?Cys?Asp?Asp?Lys?Ser?Gln
10??????????????????15??????????????????20att?ttc?acc?ctg?agg?tac?cct?atc?agc?aaa?aca?gta?aat?gcc?att?cat??????388Ile?Phe?Thr?Leu?Arg?Tyr?Pro?Ile?Ser?Lys?Thr?Val?Asn?Ala?Ile?His25??????????????????30??????????????????35??????????????????40tct?tct?gga?ggc?ctt?gcc?aaa?aaa?agt?cat?tgc?cta?act?aaa?aaa?tat??????436Ser?Ser?Gly?Gly?Leu?Ala?Lys?Lys?Ser?His?Cys?Leu?Thr?Lys?Lys?Tyr
45??????????????????50??????????????????55gct?gga?gtc?tca?cat?ttt?gtc?tta?aaa?ttt?cat?gtg?aat?ttt?gga?ttt??????484Ala?Gly?Val?Ser?His?Phe?Val?Leu?Lys?Phe?His?Val?Asn?Phe?Gly?Phe
60??????????????????65??????????????????70tat?gcc?aca?ata?cat?att?tat?tat?aat?att?aac?att?aaa?tta?cca?gtt??????532Tyr?Ala?Thr?Ile?His?Ile?Tyr?Tyr?Asn?Ile?Asn?Ile?Lys?Leu?Pro?Val
75??????????????????80??????????????????85aaa?ttt?ctt?aaa?ttt?ttc?taaaaaattt?tgaaaaagct?gatagtccca?????????????580Lys?Phe?Leu?Lys?Phe?Phe
90gaagatgtat tatgtttagc ttgtgtcttg gcatatcatc aagtccaagg agcacatgac 640agatgagaaa ggtgagtgta atccatggaa cttggtcaat gcagtaggtt gaattgtgtc 700cccccaaaag atatgcacaa gctcagctgg gtgtggtggc tcacacctgt aatcccagca 760ctgtgggagg ccagggcagg cagatcgctg gaggtcagga gtttgagact aggctggcca 820acatggtgaa atcccatctc tactaaaagt acaaaaatta gccgggcgtg atggcaggtg 880cccatagtcc cagctactca ggaggctgag gcaggagaat cgcttgaacc tgggaggcag 940agtttgcagt gagacaagat tgcaccactg cactatagcc tgggtgacag agcaagactc 1000tgcctcaaaa aaaaaaaaaa aagatatgca taagctctag ctaccccact cctttttctg 1060tgaatgtgac cttatttgga tatacgggtc tttgcagata taattaagtt gaggatctca 1120aaatgagata atgttggatt taatccaatg agagagatct gagacccaaa gaaacagggg 1180agacagtcat atgaagaagg aggctgctat ggtttggatg tggtttgtcc ccactaaaac 1240tcctgttgaa atttgatccc cagtgtggca gtattgggag atgggaagtg ttttggggtc 1300atgggagcca gggtgtctca tgaatagggt taatgccctc ccagtggaga gcattctcat 1360tcttgtggga ctggattaat tactgaagag caggttgtta taacaagtga gttcagcctc 1420ctagactctc tctcttgctt cctctctcac catgtgatct tttggcacac acccgcttcc 1480ccttcctctt tcttccatga gttgaagtgg tgtgggaccc tgaccagttg cagctaccca 1540atcttgaatt tccagcctac agaactgtga gctaaataag cctcttttct ttataaatta 1600cccagtctaa agtgttctgt tatagcaaca aaaataatgg actaagaaaa tggtaggaga 1660cgccctggct tggtggctca tgcctgtaat cccagcactt tgggaggcca aggcaggcgg 1720atcgcctgag gtcaggagtt caagaccagc ctgaccaaca tggtgaagcc ccatctctac 1780taaaaataca aaaattagcc ggccttggtg gcacacacct ataatcccag ctccttggga 1840ggctgaggca ggagaatttc ttgaacccag gaggcagagg ttgcaatgag ctgagattct 1900gccactgcac tccagcctgg gtgacagagc aagactgtgt ctggaaaaaa aaaaaaaaaa 1960aa 1962<210〉9<211〉94<212〉PRT<213〉 ( Homo sapiens )<400〉9Met Thr Asn Tyr Tyr Met Ser Glu Ile Ser Ser Leu Leu Val Asn Asn1 5 10 15Glu Ser Cys Asp Asp Lys Ser Gln Ile Phe Thr Leu Arg Tyr Pro Ile
20??????????????????25??????????????????30Ser?Lys?Thr?Val?Asn?Ala?Ile?His?Ser?Ser?Gly?Gly?Leu?Ala?Lys?Lys
35??????????????????40??????????????????45Ser?His?Cys?Leu?Thr?Lys?Lys?Tyr?Ala?Gly?Val?Ser?His?Phe?Val?Leu
50??????????????????55??????????????????60Lys?Phe?His?Val?Asn?Phe?Gly?Phe?Tyr?Ala?Thr?Ile?His?Ile?Tyr?Tyr65??????????????????70??????????????????75??????????????????80Asn?Ile?Asn?Ile?Lys?Leu?Pro?Val?Lys?Phe?Leu?Lys?Phe?Phe
85 90<210〉10<211〉2263<212〉DNA<213〉 ( Homo sapiens )<400〉10gctgatccct caatttctag cacataattt catcactagt tcacttacaa acctcagttt 60tcccatgtgt aaaataggaa ttaagtgatc acaaggccgc tctatggagc cctcatccta 120aggttacaat gagtacatat cagttgtagg agtcctttta tccaacagtg actccgtcaa 180gcccttgccg tatgctaggg cttgtagtgg acacccgaag aaccataagg agtaagatga 240ggctggttgc agagagtaca gtctcatcag aagaacttgc tcttgtaata aattcaatca 300ttgacaatca ttatttccac ccaatctgtg aaacagaata ccgttatttc ttttttttga 360gagagagtct tcttctgtcg cccaggctgg agtgtagtgg cgtgatctca gctcactgca 420acctccacct ccacctcccg ggttcaagca attctcgtgc ctcagcctcc caactagctg 480gagctgcagg cgcataccac catgcccagc taatttttgt attatttgta gagatggggt 540tttgccacat tgcccaggct ggtcttgaac tcctgtcctc aggttatcca cctcccaaag 600tgctggggtt acaggcatga gccactgcgg gatctcactc ggtcacccag gctggaatgc 660agtggagtga tcatggctcg ctgtagcctt gacctgggct caagcgatcc tcctgcctca 720gcctcccagg ctggtctcga actcctgacc tcaggtgatc tgcccacctt ggcctcccta 780agtgctgggg ttacaggcaa gagccaccgc gcccagccgg aaattccatt ttagactgga 840agccacagta taaggaaaac agctccttgg agtgcattca gagtatgact ccatggccag 900gacagggagg ggctctaaca taaaaagaac tagggggttc ggagacgttc ctaatcttgg 960ggtagcaggg aaagacggca gcaccactgg acagcaggag caagaggaat aatttcagga 1020atctgggacg cgaaaagata agggggaagg gtcatggggg catttgtggg ttctgtcctt 1080gtagttctca agagccgacc agaaagaaag gccaggggac ggagccaggc tttttctgag 1140agacccctgt agaccccagc caagcataga ggctggcgag aggaaacttt tttgtttttg 1200cttctgagac agtcttgctc tgttgcccag gctggagtgc agtggcacaa tctcagctca 1260ctgcaacctc cccgtcctgg gttcaagtga ttcccctgcc tcagcctccc aaatagctgg 1320gactatgggc atatggctcc ccatcctggg ttcaagcgat tctcctgcca cagcctcccg 1380agtagctggg actacgggca tatggctccc catcctgggt tcaagcgatt ctcctgcctc 1440agcctcccga gtagctggga ctacaggcat atggcaccac gcatggctaa ttttcttatt 1500tttagtagag ataactcctg ggctcaagcg atctgcccac ctcggcctcc caaagtgctg 1560agattacagg cacatgccac cacacccagc taattattgt gtttttagta gagacggggt 1620tttgccatgt ttgcccaggc tgctcttgaa ctcctgggct caaacgatcc acccacctct 1680gcctcccaaa gttctggggt tacaggcatc agccaccatg cccagccagg aagcttattc 1740ccagtggtct ggctctccag agttgccacg ctgaaagatg cttgctctgg agagagtgag 1800ctccctgtca ccagagctat gcaagcagat tcaggccagc cctcccagag agcatgagat 1860ggggaatcac gcacagagtg gaccgaagga gggattgaac aagaaggctc aaagggtccc 1920ttttgaccct gaagtctagg atttcgtgaa gctacaggtg aacccattgg catgagaagc 1980atccagggag gaaagatgca agcccttgga atatcgagag aatatttcca gcaggaaaag 2040aagtggaagg ttaaaggaaa gccagagaag gggacgttgc cctgggccat caactaagag 2100aaaagctgcc cagagccagg catggtggcg gcggtgccta tagtaccggc agttggagag 2160gccgaggcag gagcatcact tgagcccatg agtttgagac cagcctgggc aacatagtga 2220gacttttttc tctacaaaaa agtttaaaaa aaaaaaaaaa aaa 2263<210〉11<211〉2263<212〉DNA<213〉 ( Homo sapiens )<220〉<221〉CDS<222〉 ( 192 ) .. ( 617 )<400〉11gctgatccct caatttctag cacataattt catcactagt tcacttacaa acctcagttt 60tcccatgtgt aaaataggaa ttaagtgatc acaaggccgc tctatggagc cctcatccta 120aggttacaat gagtacatat cagttgtagg agtcctttta tccaacagtg actccgtcaa 180gcccttgccg t atg cta ggg ctt gta gtg gac acc cga aga acc ata agg 230
Met?Leu?Gly?Leu?Val?Val?Asp?Thr?Arg?Arg?Thr?Ile?Arg
1???????????????5???????????????????10agt?aag?atg?agg?ctg?gtt?gca?gag?agt?aca?gtc?tca?tca?gaa?gaa?ctt??????278Ser?Lys?Met?Arg?Leu?Val?Ala?Glu?Ser?Thr?Val?Ser?Ser?Glu?Glu?Leu
15??????????????????20??????????????????25gct?ctt?gta?ata?aat?tca?atc?att?gac?aat?cat?tat?ttc?cac?cca?atc??????326Ala?Leu?Val?Ile?Asn?Ser?Ile?Ile?Asp?Asn?His?Tyr?Phe?His?Pro?Ile30??????????????????35??????????????????40??????????????????45tgt?gaa?aca?gaa?tac?cgt?tat?ttc?ttt?ttt?ttg?aga?gag?agt?ctt?ctt??????374Cys?Glu?Thr?Glu?Tyr?Arg?Tyr?Phe?Phe?Phe?Leu?Arg?Glu?Ser?Leu?Leu
50??????????????????55??????????????????60ctg?tcg?ccc?agg?ctg?gag?tgt?agt?ggc?gtg?atc?tca?gct?cac?tgc?aac??????422Leu?Set?Pro?Arg?Leu?Glu?Cys?Ser?Gly?Val?Ile?Ser?Ala?His?Cys?Asn
65??????????????????70??????????????????75ctc?cac?ctc?cac?ctc?ccg?ggt?tca?agc?aat?tct?cgt?gcc?tca?gcc?tcc??????470Leu?His?Leu?His?Leu?Pro?Gly?Ser?Ser?Asn?Ser?Arg?Ala?Ser?Ala?Ser
80??????????????????85??????????????????90caa?cta?gct?gga?gct?gca?ggc?gca?tac?cac?cat?gcc?cag?cta?att?ttt??????518Gln?Leu?Ala?Gly?Ala?Ala?Gly?Ala?Tyr?His?His?Ala?Gln?Leu?Ile?Phe
95??????????????????100?????????????????105gta?tta?ttt?gta?gag?atg?ggg?ttt?tgc?cac?att?gcc?cag?gct?ggt?ctt??????566Val?Leu?Phe?Val?Glu?Met?Gly?Phe?Cys?His?Ile?Ala?Gln?Ala?Gly?Leu110?????????????????115?????????????????120?????????????????125gaa?ctc?ctg?tcc?tca?ggt?tat?cca?cct?ccc?aaa?gtg?ctg?ggg?tta?cag??????614Glu?Leu?Leu?Ser?Ser?Gly?Tyr?Pro?Pro?Pro?Lys?Val?Leu?Gly?Leu?Gln
130 135 140gca tgagccactg cgggatctca ctcggtcacc caggctggaa tgcagtggag 667Alatgatcatggc tcgctgtagc cttgacctgg gctcaagcga tcctcctgcc tcagcctccc 727aggctggtct cgaactcctg acctcaggtg atctgcccac cttggcctcc ctaagtgctg 787gggttacagg caagagccac cgcgcccagc cggaaattcc attttagact ggaagccaca 847gtataaggaa aacagctcct tggagtgcat tcagagtatg actccatggc caggacaggg 907aggggctcta acataaaaag aactaggggg ttcggagacg ttcctaatct tggggtagca 967gggaaagacg gcagcaccac tggacagcag gagcaagagg aataatttca ggaatctggg 1027acgcgaaaag ataaggggga agggtcatgg gggcatttgt gggttctgtc cttgtagttc 1087tcaagagccg accagaaaga aaggccaggg gacggagcca ggctttttct gagagacccc 1147tgtagacccc agccaagcat agaggctggc gagaggaaac ttttttgttt ttgcttctga 1207gacagtcttg ctctgttgcc caggctggag tgcagtggca caatctcagc tcactgcaac 1267ctccccgtcc tgggttcaag tgattcccct gcctcagcct cccaaatagc tgggactatg 1327ggcatatggc tccccatcct gggttcaagc gattctcctg ccacagcctc ccgagtagct 1387gggactacgg gcatatggct ccccatcctg ggttcaagcg attctcctgc ctcagcctcc 1447cgagtagctg ggactacagg catatggcac cacgcatggc taattttctt atttttagta 1507gagataactc ctgggctcaa gcgatctgcc cacctcggcc tcccaaagtg ctgagattac 1567aggcacatgc caccacaccc agctaattat tgtgttttta gtagagacgg ggttttgcca 1627tgtttgccca ggctgctctt gaactcctgg gctcaaacga tccacccacc tctgcctccc 1687aaagttctgg ggttacaggc atcagccacc atgcccagcc aggaagctta ttcccagtgg 1747tctggctctc cagagttgcc acgctgaaag atgcttgctc tggagagagt gagctccctg 1807tcaccagagc tatgcaagca gattcaggcc agccctccca gagagcatga gatggggaat 1867cacgcacaga gtggaccgaa ggagggattg aacaagaagg ctcaaagggt cccttttgac 1927cctgaagtct aggatttcgt gaagctacag gtgaacccat tggcatgaga agcatccagg 1987gaggaaagat gcaagccctt ggaatatcga gagaatattt ccagcaggaa aagaagtgga 2047aggttaaagg aaagccagag aaggggacgt tgccctgggc catcaactaa gagaaaagct 2107gcccagagcc aggcatggtg gcggcggtgc ctatagtacc ggcagttgga gaggccgagg 2167caggagcatc acttgagccc atgagtttga gaccagcctg ggcaacatag tgagactttt 2227ttctctacaa aaaagtttaa aaaaaaaaaa aaaaaa 2263<210〉12<211〉142<212〉PRT<213〉 ( Homo sapiens )<400〉12Met Leu Gly Leu Val Val Asp Thr Arg Arg Thr Ile Arg Ser Lys Met1 5 10 15Arg Leu Val Ala Glu Ser Thr Val Ser Ser Glu Glu Leu Ala Leu Val
20??????????????????25??????????????????30Ile?Asn?Ser?Ile?Ile?Asp?Asn?His?Tyr?Phe?His?Pro?Ile?Cys?Glu?Thr
35??????????????????40??????????????????45Glu?Tyr?Arg?Tyr?Phe?Phe?Phe?Leu?Arg?Glu?Ser?Leu?Leu?Leu?Ser?Pro
50??????????????????55??????????????????60Arg?Leu?Glu?Cys?Ser?Gly?Val?Ile?Ser?Ala?His?Cys?Asn?Leu?His?Leu65??????????????????70??????????????????75??????????????????80His?Leu?Pro?Gly?Ser?Ser?Asn?Ser?Arg?Ala?Ser?Ala?Ser?Gln?Leu?Ala
85??????????????????90??????????????????95Gly?Ala?Ala?Gly?Ala?Tyr?His?His?Ala?Gln?Leu?Ile?Phe?Val?Leu?Phe
100?????????????????105?????????????????110Val?Glu?Met?Gly?Phe?Cys?His?Ile?Ala?Gln?Ala?Gly?Leu?Glu?Leu?Leu
115?????????????????120?????????????????125Ser?Ser?Gly?Tyr?Pro?Pro?Pro?Lys?Val?Leu?Gly?Leu?Gln?Ala
130 135 140<210〉13<211〉2283<212〉DNA<213〉 ( Homo sapiens )<400〉13ggatcaatca ccccagccaa cactgtaact cccttcttag cctgttgact taaaggtagg 60aggagcccaa agtgtctagg tggcaatctc agcttccggt ttaatggaat cattcttgtg 120tctcctggtg gcagtgttcc tccccctgga actaagacct ccaagccagc agaatgtaat 180gtcatgggaa caggaagaaa aattttgctt gtggaacact atgggtgatg gtgagttgtg 240ccacttctac ttccatccct tgattcctgg acccgtgaat cctggctatg ggagaaacac 300tatcatatat tggatgctga tttagagcat acatggcttt ctagagaact ttgccccagg 360cctgcaaagt attgtcacct agttggcatt gtaattgtga cttcaaaagg ccattccacc 420attctatcaa tccagctgct tcagatgatg gggaatatgg taagaccagt aaattccatg 480ggcacgagac cactgccaca ctgcttttgc cataaagtga atgcgttggt cagaggcaat 540gctgttggga ataccatgat ggtgggtaag gcatttcatg agtccacgga tggtagtctt 600ggcagaagca ttgcatgcag gataggcaaa cccatatccc aagtaagtgt ctattccagt 660gaggacaaag ctttgacttt tccatgatgg gagaggtcca atataatcaa cctgccacca 720ggtagctggc tgattacccc gaggaatggt gccatattga ggactcagtg ttggtgtctg 780ctgctggcaa atttggcact cagcagtggc tgtagccagg tcagccttgg tgagtggaag 840tccatattgc tgaacccatg tgtaacctcc atccctgcca cgatggccac tttgttcgtg 900ggcccattgg gcgatcacag gggtggctgg ggaaggaggc tgagtggtgt ccatagatcg 960ggtcatccta tccacttgat tattaaaatc ctcctctgct gaggtcacct gttggtgggc 1020acctacatgg aatacaaaag tattcacagt ttttgaccac gcagaagagg ttcatccaca 1080tacctcttcc ccaactttgt cacaaatttt ccagtcatgc ttcttccaag tccctgacca 1140tccagccaaa ccactggcca cagccaatga atcagtatat aatcacatat ctggccattt 1200ctccttccat gcaaagtgca caactaggtg cactgctcaa agttctgctt actgggaaga 1260ttcctcttca ctgctgtcct tcaggggtgt cctagaaagg ggggctgtag tgctccagtt 1320gtccactttt gtggggaaaa gaaagagaga tcagactgtt actgtgtcta agtagaaagg 1380gaagacataa gacactccat tttgaaaaag acctgtactt taaataattg ctttgctgag 1440atgttgttaa tttgtagctt tgccccagcc actttgaccc aaccactttg acacaacctg 1500gagctcacaa aaacatgtgt tgtatgaaat caaggtttaa gggatctagg actgtgcagg 1560acgtgccttg ttaacaaaat gtttacaagc agtatacttg gtaaaagtca tcgccattct 1620ctagtctcaa taaaccaggg gcacaatgca ctgtggaaag ccacagggac ctccaccctt 1680gaaagcgggg tattgtccaa ggtttctccc catgtgatag tctaaaatat ggcctcacag 1740gattagaaag acctgactgt cccccagccc gacacccata aagggtctgt gctgaggtgg 1800attagtaaaa gaggaaagcc tcttgcagtt gagatagcgg aaagccagtc tcctgcctgc 1860ccctgggaac tgaatgtctc agtataaaac ccagttgtac atttgttcaa ttctgagatg 1920aaagaaaaac tgccctgtgg tgagaggtga gacatgtttg cagcaatgct gctttgttat 1980tctttactcc actgagatgt ttgggtggag agaaacataa atctggctta cgtgcacgtc 2040cagtcatagt accttccctt gaacttaatt atgacataga ttctattgct cacgtttgtt 2100gttgaccttt ccccttatta tcaccctgcc ctcctactac attccttttt gctgaaataa 2160tgaagataat aatcaataaa aactgaggga acccagagac tggtgtcggt gcaggtcctt 2220ggtatgctga gcgctggtcc cctgggccca ctgttgtttc tctataaaaa aaaaaaaaaa 2280aaa 2283<210〉14<211〉2283<212〉DNA<213〉 ( Homo sapiens )<220〉<221〉CDS<222〉 ( 445 ) .. ( 684 )<400〉14ggatcaatca ccccagccaa cactgtaact cccttcttag cctgttgact taaaggtagg 60aggagcccaa agtgtctagg tggcaatctc agcttccggt ttaatggaat cattcttgtg 120tctcctggtg gcagtgttcc tccccctgga actaagacct ccaagccagc agaatgtaat 180gtcatgggaa caggaagaaa aattttgctt gtggaacact atgggtgatg gtgagttgtg 240ccacttctac ttccatccct tgattcctgg acccgtgaat cctggctatg ggagaaacac 300tatcatatat tggatgctga tttagagcat acatggcttt ctagagaact ttgccccagg 360cctgcaaagt attgtcacct agttggcatt gtaattgtga cttcaaaagg ccattccacc 420attctatcaa tccagctgct tcag atg atg ggg aat atg gta aga cca gta 471
Met?Met?Gly?Asn?Met?Val?Arg?Pro?Val
1???????????????5aat?tcc?atg?ggc?acg?aga?cca?ctg?cca?cac?tgc?ttt?tgc?cat?aaa?gtg??????519Asn?Ser?Met?Gly?Thr?Arg?Pro?Leu?Pro?His?Cys?Phe?Cys?His?Lys?Val10??????????????????15??????????????????20??????????????????25aat?gcg?ttg?gtc?aga?ggc?aat?gct?gtt?ggg?aat?acc?atg?atg?gtg?ggt??????567Asn?Ala?Leu?Val?Arg?Gly?Asn?Ala?Val?Gly?Asn?Thr?Met?Met?Val?Gly
30??????????????????35??????????????????40aag?gca?ttt?cat?gag?tcc?acg?gat?ggt?agt?ctt?ggc?aga?agc?att?gca??????615Lys?Ala?Phe?His?Glu?Ser?Thr?Asp?Gly?Ser?Leu?Gly?Arg?Ser?Ile?Ala
45??????????????????50??????????????????55tgc?agg?ata?ggc?aaa?ccc?ata?tcc?caa?gta?agt?gtc?tat?tcc?agt?gag??????663Cys?Arg?Ile?Gly?Lys?Pro?Ile?Ser?Gln?Val?Ser?Val?Tyr?Ser?Ser?Glu
60??????????????????65??????????????????70gac?aaa?gct?ttg?act?ttt?cca?tgatgggaga?ggtccaatat?aatcaacctg?????????714Asp?Lys?Ala?Leu?Thr?Phe?Pro
75 80ccaccaggta gctggctgat taccccgagg aatggtgcca tattgaggac tcagtgttgg 774tgtctgctgc tggcaaattt ggcactcagc agtggctgta gccaggtcag ccttggtgag 834tggaagtcca tattgctgaa cccatgtgta acctccatcc ctgccacgat ggccactttg 894ttcgtgggcc cattgggcga tcacaggggt ggctggggaa ggaggctgag tggtgtccat 954agatcgggtc atcctatcca cttgattatt aaaatcctcc tctgctgagg tcacctgttg 1014gtgggcacct acatggaata caaaagtatt cacagttttt gaccacgcag aagaggttca 1074tccacatacc tcttccccaa ctttgtcaca aattttccag tcatgcttct tccaagtccc 1134tgaccatcca gccaaaccac tggccacagc caatgaatca gtatataatc acatatctgg 1194ccatttctcc ttccatgcaa agtgcacaac taggtgcact gctcaaagtt ctgcttactg 1254ggaagattcc tcttcactgc tgtccttcag gggtgtccta gaaagggggg ctgtagtgct 1314ccagttgtcc acttttgtgg ggaaaagaaa gagagatcag actgttactg tgtctaagta 1374gaaagggaag acataagaca ctccattttg aaaaagacct gtactttaaa taattgcttt 1434gctgagatgt tgttaatttg tagctttgcc ccagccactt tgacccaacc actttgacac 1494aacctggagc tcacaaaaac atgtgttgta tgaaatcaag gtttaaggga tctaggactg 1554tgcaggacgt gccttgttaa caaaatgttt acaagcagta tacttggtaa aagtcatcgc 1614cattctctag tctcaataaa ccaggggcac aatgcactgt ggaaagccac agggacctcc 1674acccttgaaa gcggggtatt gtccaaggtt tctccccatg tgatagtcta aaatatggcc 1734tcacaggatt agaaagacct gactgtcccc cagcccgaca cccataaagg gtctgtgctg 1794aggtggatta gtaaaagagg aaagcctctt gcagttgaga tagcggaaag ccagtctcct 1854gcctgcccct gggaactgaa tgtctcagta taaaacccag ttgtacattt gttcaattct 1914gagatgaaag aaaaactgcc ctgtggtgag aggtgagaca tgtttgcagc aatgctgctt 1974tgttattctt tactccactg agatgtttgg gtggagagaa acataaatct ggcttacgtg 2034cacgtccagt catagtacct tcccttgaac ttaattatga catagattct attgctcacg 2094tttgttgttg acctttcccc ttattatcac cctgccctcc tactacattc ctttttgctg 2154aaataatgaa gataataatc aataaaaact gagggaaccc agagactggt gtcggtgcag 2214gtccttggta tgctgagcgc tggtcccctg ggcccactgt tgtttctcta taaaaaaaaa 2274aaaaaaaaa 2283<210〉15<211〉80<212〉PRT<213〉 ( Homo sapiens )<400〉15Met Met Gly Asn Met Val Arg Pro Val Asn Ser Met Gly Thr Arg Pro1 5 10 15Leu Pro His Cys Phe Cys His Lys Val Asn Ala Leu Val Arg Gly Asn
20??????????????????25??????????????????30Ala?Val?Gly?Asn?Thr?Met?Met?Val?Gly?Lys?Ala?Phe?His?Glu?Ser?Thr
35??????????????????40??????????????????45Asp?Gly?Ser?Leu?Gly?Arg?Ser?Ile?Ala?Cys?Arg?Ile?Gly?Lys?Pro?Ile
50 55 60Ser Gln Val Ser Val Tyr Ser Ser Glu Asp Lys Ala Leu Thr Phe Pro65 70 75 80<210〉16<211〉1073<212〉DNA<213〉 ( Homo sapiens )<400〉16ggggcctggc ctggcctggt gatgccacta tttccttaag aggagagtgg acattccgga 60ttattgtcgg gggagtctca tttctgctgc tgtaacaaaa taccacagac tgggtcattt 120agaaaccata gaaactgatt tcgtactgtt ctagaggctg ggaagtccca gatcaaggtg 180ccagcaggtt tggtgtcgtg agggccactc tctgcttcca agatggtccc tccttgctgt 240gtcctctgga ggggaagact gctgtgtcct cacgctgcag aaggtggaag ggcgagagat 300ggcaaaccag gcttacaagc cctttgaaaa gggccctcat cccatcctgg agagctctgc 360cctatcacat tggcgattat gtttcaatat gtaaattttg ggagatgcat tcagaccaca 420ggaggaaggg aaaagaaaga gcccccaggt tgaaagccag tttaggtttg agtcccagcc 480tttccccttg ctgtgtgacc tggagtaaat tcctcagcct ctgtgagtct cccattccac 540cccaggattg ttgtgaaaac acagtaaggc aagcgggtaa gaaagcaccc agcaaggtgt 600caagtgcccc accaggaggg gtggggtggc aatttccagc attgcttgga accagaatag 660caacgtcttc tgaggttcca gaatttggac tctgaaccca ttgagaagaa tgaaatcaac 720tttggcgtca atcagccact gattgccatg tggcctggac gagtcatctc attcaacttc 780actttcagcc ggacgctgtg actcgggcct gtaaccccag cactttggga agctgaggtg 840ggtggatcgc ttgagcccag gagttagaga ccagcctggg caacctggcg aaacctcgtc 900tctacaaaaa aatacaaaaa attagctggg cctggtggcg tgtgcctgta gtcccggcta 960ctcaggagtc tgaggtggga agatccactg agcccaggag gttgaggctg cactccagcc 1020tgggcgacag gagtgaaacc ctgtctcaaa aagttaaaaa aaaaaaaaaa aaa 1073<210〉17<211〉1073<212〉DNA<213〉 ( Homo sapiens )<220〉<221〉CDS<222〉 ( 405 ) .. ( 692 )<400〉17ggggcctggc ctggcctggt gatgccacta tttccttaag aggagagtgg acattccgga 60ttattgtcgg gggagtctca tttctgctgc tgtaacaaaa taccacagac tgggtcattt 120agaaaccata gaaactgatt tcgtactgtt ctagaggctg ggaagtccca gatcaaggtg 180ccagcaggtt tggtgtcgtg agggccactc tctgcttcca agatggtccc tccttgctgt 240gtcctctgga ggggaagact gctgtgtcct cacgctgcag aaggtggaag ggcgagagat 300ggcaaaccag gcttacaagc cctttgaaaa gggccctcat cccatcctgg agagctctgc 360cctatcacat tggcgattat gtttcaatat gtaaattttg ggag atg cat tca gac 416
Met?His?Ser?Asp
1cac?agg?agg?aag?gga?aaa?gaa?aga?gcc?ccc?agg?ttg?aaa?gcc?agt?tta??????464His?Arg?Arg?Lys?Gly?Lys?Glu?Arg?Ala?Pro?Arg?Leu?Lys?Ala?Ser?Leu5???????????????????10??????????????????15??????????????????20ggt?ttg?agt?ccc?agc?ctt?tcc?cct?tgc?tgt?gtg?acc?tgg?agt?aaa?ttc??????512Gly?Leu?Ser?Pro?Ser?Leu?Ser?Pro?Cys?Cys?Val?Thr?Trp?Ser?Lys?Phe
25??????????????????30??????????????????35ctc?agc?ctc?tgt?gag?tct?ccc?att?cca?ccc?cag?gat?tgt?tgt?gaa?aac??????560Leu?Ser?Leu?Cys?Glu?Ser?Pro?Ile?Pro?Pro?Gln?Asp?Cys?Cys?Glu?Asn
40??????????????????45??????????????????50aca?gta?agg?caa?gcg?ggt?aag?aaa?gca?ccc?agc?aag?gtg?tca?agt?gcc??????608Thr?Val?Arg?Gln?Ala?Gly?Lys?Lys?Ala?Pro?Ser?Lys?Val?Ser?Ser?Ala
55??????????????????60??????????????????65cca?cca?gga?ggg?gtg?ggg?tgg?caa?ttt?cca?gca?ttg?ctt?gga?acc?aga??????656Pro?Pro?Gly?Gly?Val?Gly?Trp?Gln?Phe?Pro?Ala?Leu?Leu?Gly?Thr?Arg
70 75 80ata gca acg tct tct gag gtt cca gaa ttt gga ctc tgaacccatt 702Ile Ala Thr Ser Ser Glu Val Pro Glu Phe Gly Leu85 90 95gagaagaatg aaatcaactt tggcgtcaat cagccactga ttgccatgtg gcctggacga 762gtcatctcat tcaacttcac tttcagccgg acgctgtgac tcgggcctgt aaccccagca 822ctttgggaag ctgaggtggg tggatcgctt gagcccagga gttagagacc agcctgggca 882acctggcgaa acctcgtctc tacaaaaaaa tacaaaaaat tagctgggcc tggtggcgtg 942tgcctgtagt cccggctact caggagtctg aggtgggaag atccactgag cccaggaggt 1002tgaggctgca ctccagcctg ggcgacagga gtgaaaccct gtctcaaaaa gttaaaaaaa 1062aaaaaaaaaa a 1073<210〉18<211〉96<212〉PRT<213〉 ( Homo sapiens )<400〉18 Met His Ser Asp His Arg Arg Lys Gly Lys Glu Arg Ala Pro Arg Leu1 5 10 15Lys Ala Ser Leu Gly Leu Ser Pro Ser Leu Ser Pro Cys Cys Val Thr
20??????????????????25??????????????????30Trp?Ser?Lys?Phe?Leu?Ser?Leu?Cys?Glu?Ser?Pro?Ile?Pro?Pro?Gln?Asp
35??????????????????40??????????????????45Cys?Cys?Glu?Asn?Thr?Val?Arg?Gln?Ala?Gly?Lys?Lys?Ala?Pro?Ser?Lys
50??????????????????55??????????????????60Val?Ser?Ser?Ala?Pro?Pro?Gly?Gly?Val?Gly?Trp?Gln?Phe?Pro?Ala?Leu65??????????????????70??????????????????75??????????????????80Leu?Gly?Thr?Arg?Ile?Ala?Thr?Ser?Ser?Glu?Val?Pro?Glu?Phe?Gly?Leu
85??????????????????90??????????????????95

Claims (10)

1. isolating people's albumen with promotion 3T3 cell transformation function is characterized in that it comprises the polypeptide of the aminoacid sequence with the group of being selected from down: SEQ ID NO:3,6,9,12,15,18;
Or its conservative property variation polypeptide or its active fragments or its reactive derivative.
2. polypeptide as claimed in claim 1 is characterized in that, this polypeptide is the polypeptide with aminoacid sequence of the group of being selected from down: SEQ ID NO:3,6,9,12,15,18.
3. isolating polynucleotide is characterized in that, it comprises a nucleotide sequence, and this nucleotide sequence is shown at least 85% homogeny with a kind of nucleotides sequence that is selected from down group:
(a) coding is as the polynucleotide of polypeptide as described in claim 1 and 2;
(b) with polynucleotide (a) complementary polynucleotide.
4. polynucleotide as claimed in claim 3 is characterized in that, the polypeptide of this polynucleotide encoding has the aminoacid sequence of the group of being selected from down: SEQ ID NO:3,6,9,12,15,18.
5. polynucleotide as claimed in claim 3 is characterized in that, the sequence of these polynucleotide is selected from down group:
SEQ ID NO:2,5,8,11,14,17 coding region sequence or full length sequence.
6. a carrier is characterized in that, it contains the described polynucleotide of claim 3.
7. a genetically engineered host cell is characterized in that, it is a kind of host cell that is selected from down group:
(a) host cell that transforms or transduce with the described carrier of claim 6;
(b) host cell that transforms or transduce with the described polynucleotide of claim 3.
8. preparation method with polypeptide of the people's protein-active that promotes 3T3 cell transformation function is characterized in that this method comprises:
(a) being fit to express under the proteic condition of people with promotion 3T3 cell transformation function, cultivate the described host cell of claim 7;
(b) from culture, isolate polypeptide with the people's protein-active that promotes 3T3 cell transformation function.
9. an energy and claim 1 are described has the people's protein-specific bonded antibody that promotes 3T3 cell transformation function.
10. nucleic acid molecule, it contains a successive 10-800 Nucleotide in the described polynucleotide of claim 3.
CN 01145285 2001-12-30 2001-12-30 New human protein having mouse NIH/3T3 cell conversion promoting function and its code sequence Expired - Fee Related CN1199997C (en)

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Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN108624689A (en) * 2018-06-13 2018-10-09 北京泱深生物信息技术有限公司 The application of biomarker LINC01451

Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN108624689A (en) * 2018-06-13 2018-10-09 北京泱深生物信息技术有限公司 The application of biomarker LINC01451

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