CN1300319A - Lipase variant - Google Patents
Lipase variant Download PDFInfo
- Publication number
- CN1300319A CN1300319A CN 99803019 CN99803019A CN1300319A CN 1300319 A CN1300319 A CN 1300319A CN 99803019 CN99803019 CN 99803019 CN 99803019 A CN99803019 A CN 99803019A CN 1300319 A CN1300319 A CN 1300319A
- Authority
- CN
- China
- Prior art keywords
- lipase
- wild
- amino acid
- variant
- electronegative
- Prior art date
- Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
- Granted
Links
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Images
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- Detergent Compositions (AREA)
- Enzymes And Modification Thereof (AREA)
Abstract
Variants of Lipolase3 (wild-type Humicola lanuginosa lipase) with a certain distribution of electrically charged amino acids have a particularly good first-wash performance in a detergent solution with a high ratio of anionic to non-ionic surfactant. The effect is achieved by attaching a positively charged peptide extension at the N-terminal and by imposing certain restrictions on the charge distribution in the region corresponding to amino acid positions 90-101 and at position 210. The inventors further devised a method of developing variants with such performance from Lipolase by attaching a peptide extension at the N-terminal and substituting amino acids in the region 90-101 or in the immediate surroundings in the three-dimensional structure. The lipases may further provide additional benefits, such as whiteness maintenance and dingy cleanup.
Description
Invention field
The present invention relates to be applicable to detergent composition, particularly have a lipase Variant in the washing composition of high-content anion surfactant.More particularly, the present invention relates to variant from the wild-type lipase of Humicola lanuginosa strain DSM 4109.
Background of invention
For many years, lipase has been used as detergent enzyme to remove from the lipid of clothing and other yarn fabric or the dirt of fat, (EP 258 068 and the EP 305 216) that wherein particularly derive from Humicola lanuginosa is with the upright Lai Si that pounces on of trade(brand)name
The lipase that (product of Novo Nordisk A/S) sold.
WO 92/05249, and WO 94/25577, and WO 95/22615, and WO 97/04079 and WO97/07202 disclose the variant of H.lanuginosa lipase, and this variant has the characteristic of improvement at the washing purposes.So WO 97/04079 discloses at the N-end has the variant that peptide adds part (extension).WO 97/07202 discloses the lipase Variant with " washing (first-wash) performance first ", and this variant can be removed a large amount of lard from the sample of being made dirty by lard (swatch) in a round-robin washing.
All the time exist at present needs to the new fats enzyme that the characteristic (wash characteristics that particularly has improvement in the commercial washing composition that comprises the washing composition with high-content anion surfactant) with improvement is provided.The present invention relates to so new lipase.
Summary of the invention
The variant that the inventor has been found that the upright Lai Si of pouncing on (lipase of wild-type Humicola lanuginosa) with charged amino acid whose specific distribution has good especially scourability first in having the detergent solution of high negatively charged ion and the ratio of nonionogenic tenside.
The inventor finds that this effect is by in the terminal peptide extension that connects a positively charged of N-and by to realizing applying certain restriction corresponding to the charge distribution in the amino acid region on 90-101 position and the 210th.By N-terminal connect a peptide extension and replace in the 90-101 zone or three-dimensional structure in amino acid in the immediate environment, the inventor has further invented and has a kind ofly been pounced on this exploitation of Lay and had the method for the variant of described performance by upright.Described lipase can further provide other benefit, such as the cleaning with foul kept of whiteness.
Therefore, the invention provides a kind of lipase, this lipase is the polypeptide with following aminoacid sequence:
A) described sequence and derive between the wild-type lipase of Humicola lanuginosa strain DSM 4109 and have at least 90% identity;
B) compare with said wild-type lipase, described sequence comprises the peptide extension that links to each other with the N-end of a positively charged;
C) described sequence comprises the locational electronegative amino acid of the E210 at said wild-type lipase.
In addition, described aminoacid sequence can:
D) comprise one corresponding to the electronegative amino acid in the zone of said wild-type lipase 90-101 position;
E) comprise one corresponding to locational neutrality or the electronegative amino acid of the N94 of said wild-type lipase and/or in zone, have negative or the neutral net charge corresponding to said wild-type lipase 90-101 position.
On the other hand, described aminoacid sequence can:
D) be included in the amino acid that has negative electricity at least two positions of N94, the D96 of said wild-type lipase and E99 position or do not change electric charge.
The present invention also provides a kind of detergent composition that comprises described lipase, the encode dna sequence dna of described lipase, carry the expression vector of described dna sequence dna, the transformed host cells that contains said dna sequence dna or said expression vector, and produce the method for described lipase by cultivating described transformed host cells.
In addition, the invention provides a kind of method of producing variant lipase, this method comprises:
A) select to have the parental generation lipolytic enzyme of a certain aminoacid sequence, described aminoacid sequence and derive between the wild-type lipase of Humicola lanuginosa strain DSM 4109 and have at least 90% identity;
B) nucleotide sequence of modifying the described parental generation lipase of coding to be producing the nucleic acid of a certain lipase of coding, and described lipase is included in the peptide extension of N-end and in following locational amino acid whose replacement:
ⅰ) in zone corresponding to the 90-101 position of said wild-type lipase, or
ⅱ) on the surface of the three-dimensional structure in 6 dust scopes of arbitrary position of described 90-101 position,
C) nucleic acid of expressing described modification in host cell to be producing variant lipase,
D) washing effect first of variant lipase in the test detergent solution, described detergent solution comprise that its amount surpasses 70% anion surfactant of total surfactant weight,
E) repeating step b-d optionally, and
F) selection has the variant of the washing effect first of improvement.
Brief description of the drawings
Fig. 1 demonstrates the structure of plasmid pEVi 1163.
Fig. 2 demonstrates the structure of Aspergillus carrier pCaHj 483.
Fig. 3 demonstrates the structure of expression plasmid pCaHj 521.
Detailed Description Of The Invention
The lipase of Humicola lanuginosa
The reference lipase that adopts among the present invention is the wild type lipase that derives from Humicola lanuginosa strain DSM 4109. It is described in EP 258068 and EP 305216 and is had a US 5,869, the amino acid sequence shown in 438 the SEQ ID NO:2 1-269 position. In this manual, this is known as again the vertical Lai Si that pounces on reference to lipase.
Peptide extension at the N-end
Pounce on Lai Si and compare with vertical, lipase of the present invention comprises a peptide extension with the terminal positively charged that links to each other of N-. The peptide extension preferably is made up of 1-15 (particularly 4-10) amino acid residue, and preferably includes the amino acid of 1,2 or 3 positively charged, most preferably is 1,2 or 3R.
Optionally, replace E1 by the amino acid (for example E1P) with electroneutral or positively charged, can further increase the electric charge of N-end.
Some preferred peptide extensions are SPIRR, RP (E), SPIRPRP (E), SPPRRP (E) and SPIRPRP (E).
The peptide extension can comprise by second C in disulfide bond and the described polypeptide (or be present in vertical pounce on Lay in this C or by replacing the C of introducing) C (cysteine) that links to each other, the SPPCGRRP that for example links to each other with E239C (E), SPCRPR, SPCRPRP (E), SPPCGRRPRRP (E), (E), SPPCRRRP (E) or SCIRR for SPPNGSCGRRP. Such variant may have the stability of improvement.
In addition, can use any peptide extension of in WO 97/04079 and WO 97/07202, describing.
Amino acid on 90-101 position and E210
The inventor has been found that amino acid E210 must be electronegative for for first scourability good in the anionic detergent. Therefore, E210 can not change or can carry out the replacement of the replacement of E210D/C/Y, particularly E210D.
Lipase can comprise the electronegative amino acid of (for example on the position of D96 and/or E99) on arbitrary position of 90-101 position (particularly 94-101 position).
In addition, lipase can comprise one at the locational electroneutral or electronegative amino acid of N94, i.e. N94 (electroneutral or electronegative), for example N94N/D/E.
And lipase can have negative or neutral net charge in 90-101 (particularly 94-101) zone, and namely electronegative amino acid whose number is equal to or greater than the amino acid whose number of positively charged. Therefore, this zone can be not be pounced on Lai Si and is changed from vertical, it has the amino acid (K98) of two electronegative amino acid (D96 and E99) and a positively charged and has an electroneutral amino acid (N94) at the 94th, and perhaps this zone can be modified by one or more replacements.
On the other hand, three amino acid N 94, two among N96 and the E99 can have negative or unaltered electric charge. Therefore, three all amino acid can be not do not change or can change by conservative or electronegative replacement i.e. N94 (electroneutral or electronegative), D (electronegative) and E99 (electronegative). Example is N94D/E and D96E. And, can replace among three one to increase electric charge, i.e. N94 (positively charged), D96 (electroneutral or positively charged) or E99 (electroneutral or positively charged). Example is N94K/R, D96I/L/N/S/W or E99N/Q/K/R/H.
Can improve the performance of anionic detergent with the electroneutral amino acid of electronegative 49-Phe ,82-Ser,115-Arg,144-Met,145-Asn ,161-Arg,169-Met Human Connective tissue growth factor (N94D/E). Can provide the lipase of the variant with superperformance among both at anionic detergent and anionic/nonionic washing agent (washing agent that for example has the anion surfactant of the 40-70% that accounts for total surfactant) with the electroneutral amino acid of the 49-Phe ,82-Ser,115-Arg,144-Met,145-Asn ,161-Arg,169-Met Human Connective tissue growth factor of positively charged (N94K/R).
Other locational amino acid
The inventor has been found that the performance that can improve anionic detergent with electroneutral or electronegative 49-Phe ,82-Ser,115-Arg,144-Met,145-Asn ,161-Arg,169-Met Human Connective tissue growth factor R209 (for example R209P/S), and replaces the performance that Q249R/K/H can improve anion and anionic/nonionic washing agent.
G91 can be unaltered or can be with another kind of electroneutral 49-Phe ,82-Ser,115-Arg,144-Met,145-Asn ,161-Arg,169-Met Human Connective tissue growth factor, for example G91G/A/S/T. K98 can be unaltered, and perhaps it can be by electroneutral or electronegative 49-Phe ,82-Ser,115-Arg,144-Met,145-Asn ,161-Arg,169-Met Human Connective tissue growth factor. N11, D137, E239 can optionally be replaced, N11E/G/K/Q/R/T for example, D137C/E/G/N/V/Y, E239D/G/V.
The combination that replaces E99N+N101S can be used for introduce a glycosylation site.
The combination that replaces
By the lipase Variant that can obtain to have superperformance in anionic detergent is made up in one of aforesaid peptide extension and following each group replacement:
A.G91G/A/S/T+N94 (electric neutrality or electronegative)+D96D/E/C/Y+E99E/D/C/Y
B.G91G/A/S/T+N94 (electric neutrality or electronegative)+D96D/E/C/Y+E99N+N101S
C.G91G/A/S/T+N94R/K/H+D96D/E/C/Y+E99E/D/C/Y
D.G91G/A/S/T+N94 (electric neutrality or electronegative)+D96 (electric neutrality or positively charged)+E99E/D/C/Y
E.G91G/A/S/T+N94 (electric neutrality or electronegative)+D96D/E/C/Y+E99 (electric neutrality or positively charged)
The combination of the arbitrary and Q249R of F.A-E
The combination of the arbitrary and R209 of G.A-F (electric neutrality or electronegative)
The combination of the arbitrary and K98 of H.A-G (electric neutrality or electronegative)
I. above combination arbitrary further with the combination of above-mentioned arbitrary replacement.
By one of aforesaid peptide extension and following each group replacement are made up, can obtain the lipase Variant that in negatively charged ion and anionic/nonionic washing composition, has superperformance:
G91A+E99R/K/H+Q249R/K/H
G91A+N94R/K/H+Q249R/K/H
G91A+D96 (electric neutrality or positively charged)+Q249R/K/H.
Be used for amino acid modified nomenclature
The nomenclature that this paper is used to define sudden change is basically as described in the WO 92/05249.Therefore, E99N represents to replace E on the 99th with N.D96I/L/N/S/W represents to use I, L, and N, S or W replace the D on the 96th.G91G/A/S/T represents that G91 can change (G) or can be by A, and S or T replace.D96X represents to use other aminoacid replacement D96 arbitrarily.N94 (electric neutrality or electronegative) the expression aminoacid replacement N94 of electronegative arbitrarily or positively charged.
SPCRPR is illustrated in the N-end and has connected peptide extension SPCRPR (being E1).ElSPPCGRRP or SPPCGRRP (E) expression E1P replacement and peptide extension SPPCGRRP is connected on the N-end of replacement.
Amino acid whose grouping
In this manual, according to its under pH10 with electric charge, amino acid is divided into electronegative, positively charged or these several classes of electric neutrality, this is the feature of washing composition of the present invention.Therefore, electronegative amino acid is E, D, C and Y, particularly E and D.The amino acid of positively charged is R, K and H, particularly R and K.Electric neutrality amino acid is G, A, V, L, I, P, F, W, S, T, M, N, Q.With same group (electronegative, positively charged or electric neutrality) in another kind of amino acid whose replacement be known as conservative the replacement.
Can be divided into hydrophobic (G, A, V, L, I, P, F, W) and hydrophilic (S, T, M, N, Q) to electric neutrality amino acid.
Amino acid whose identity
Lipase Variant of the present invention and upright have at least 90% between the Lai Si amino acid identity of (be preferably greater than 95% or greater than 98%) pounced on.For the purpose of the present invention, the peptide extension of N-end is not considered when calculating amino acid whose identity.
By computer program as known in the art, such as the breach that provides in the GCG routine package (gap) program (Wisconsin software package procedure manual, the 8th edition, in August, 1994, genetics computer group, 575 science roads, the Madison city, the state of Wisconsin, the U.S. 53711) (Needleman, S.B. and Wunsch, C.D., (1970) " molecular biology magazine " 48:443-45), use to have the breach program that is used for peptide sequence following setting relatively, can suitably measure the degree of identity: breach produce point penalty (penalty) be 3.0 and breach to extend point penalty be 0.1.
Lipase Variant of the present invention preferably includes interpolation part and 0-10 (particularly 2-6) amino acid whose replacement of peptide.
Produce the method for variant lipase
As already pointed out, the invention provides a kind of method of producing variant lipase by parental generation lipase.Parental generation lipase can be to stand to pounce on Lai Si or its variant, for example has the variant such as following replacement:
E99N+N101S+E239C+Q249R+SPPCGRRP(-E),
E99K+E239C+Q249R+SPPCGRRP(-E),
E99N+E239C+Q249R?SPPCGRRP(-E),
Variant lipase comprises a peptide extension and amino acid whose replacement.The peptide extension (can optionally make up with the replacement of E1) of N-end has more than been described.
Will substituted amino acid can be arranged in zone corresponding to 90-101 position (preferred 94-101 position).On the other hand, will substituted amino acid can be positioned on the surface of lipase three-dimensional structure of 6 dust scopes of arbitrary position of 90-101 position, for example the 83rd, 85-115,118,147,154,174,176-178,181,202-203,206-208,211-213, the amino acid on 255 or 258.
Preferred amino acids is arranged in the amino acid in 90-101 zone for those or is close to these amino acid whose amino acid, promptly with described zone in the amino acid that directly contacts of amino acid.Such amino acid is D102, S105, S115, D111, G112, G106, C107, R108, N178, G212, F211, P208, P207, L206, I202.Interested especially amino acid is R108, D111, S115, N178, F211, G212, G112, especially R108 and D111.
Interested especially is to replace with the amino acid that has different electric charges, for example replaces the amino acid of electroneutral or positively charged with E, D, Y or C; Replace electric neutrality or electronegative amino acid with R, K or H; Perhaps replace positively charged or electronegative amino acid with L, I, V, A, N or Q.
By method as known in the art, for example site-directed mutagenesis or localized random mutagenesis, can carry out the modification of dna sequence dna.
Dna sequence dna
By in the cDNA of coding parental generation lipase or genomic dna sequence, introducing relevant sudden change, can suitably prepare the dna sequence dna of coding lipase Variant.According to well-known technology, such as those by the disclosed technology of people such as Sambrook, can introduce sudden change.DNA construct may further include the necessary control sequence of expression into the dna sequence dna of realizing modifying.Control sequence can be a kind of suitable promoter sequence, promptly a kind of nucleotide sequence by the host cell identification that is used to express described nucleotide sequence.Promoter sequence contains that mediation washs first that lipolytic enzyme expresses transcribes and translates control sequence.Promotor can be the nucleotide sequence arbitrarily that demonstrates transcriptional activity in the host cell of selecting, and can be outside coding and host cell or homology or allogenic born of the same parents or in the born of the same parents obtains the gene of polypeptide.
Control sequence also can be a kind of suitable Transcription Termination subsequence, and is promptly a kind of by the sequence of host cell identification to stop transcribing.The terminator sequence is operably connected to 3 ' end of the nucleotide sequence of coding lipase Variant.The terminator sequence can be the coding lipase Variant nucleotide sequence native sequences or can obtain from external source source.
Control sequence also can be a kind of suitable leader sequence, a kind of polyadenylation sequence, a kind of signal coding sequence or other transcribes or translate the adjusting sequence arbitrarily.In addition, DNA construct can comprise that a kind of production of encoding is the dna sequence dna of the necessary factor of lipase Variant of activity form, promptly so-called lipase modulation or chaperone (referring to WO 91/00908, WO 93/13200 and EP331376).
Expression vector
Expression vector of the present invention can comprise the necessary aforesaid control sequence of dna sequence dna that is used for correctly expressing code book invention lipase Variant.The selection of expression vector will be depended on the host cell of for example planning employing in producing described lipase.For example at WO 91/00908, WO 93/13200, discloses suitable expression vector among EP 331376 and the WO 95/14783.
Host cell
Host cell can be unicellular microorganism or non-unicellular microorganism.Host cell can be eukaryote and preferred fungi, i.e. yeast cell or filamentous fungal cells.
Fungal host cells is filamentous fungal cells preferably, cell such as Acremonium, Aspergillus, fusarium, Humicola, myceliophthora, Mucor, neurospora, Penicillium, careless Rhizopus, Tolypocladium and Trichoderma, the particularly cell of Aspergillus or fusarium, for example cell of aspergillus oryzae, black aspergillus, smelly aspergillus, aspergillus japonicus, fusarium oxysporum or F.graminearum schw.
The fungal cell can transform in known mode own by the formation that relates to protoplastis, the conversion of protoplastis and the regenerated method of cell walls.Such method is well-known in the art.Host cell is being a defective aspect one or more proteolytic enzyme or other enzyme processing mode preferably.The protease-deficient host cell is well known in the art.
Host cell is preferably with comprising that the carrier of nucleotide sequence of the present invention transforms, next with described vector integration in host chromosome.Conversion is played carrier is introduced effect in the host cell, thereby keeps carrier to be chromosomal intasome or to be the extrachromosomal carrier of self-replacation.Integration can have an advantage, and this is because described nucleotide sequence can stably remain in the cell.Vector integration can be undertaken by homology or non-homogeneous reorganization in host chromosome.
The production of lipase
Variant lipase of the present invention and dna sequence dna of the present invention, expression vector of the present invention, transformed host cells of the present invention can prepare by method well-known in the art, and these methods for example are at WO 97/04079 and WO 97/07202 or in the method described in this specification sheets embodiment.
Adopt method well known in the art, can in being suitable for producing the nutritional medium of lipase Variant, cultivate host cell.For example, can by in suitable medium and make lipase Variant express and/or isolating condition under shake-flask culture, small-scale in laboratory or industrial fermentation jar or the large scale fermentation (comprise continuously, in batches, fed-batch or solid state fermentation) that carry out come culturing cell.Adopt step well known in the art (referring to for example directed toward bacteria and zymic reference; Bennett, J.W. and LaSure, L. edits, " more genetic manipulation in the fungi " academic press, CA, 1991), in comprising the suitable nutritional medium of carbon and nitrogenous source and inorganic salt, cultivate.Suitable medium can obtain there or can prepare (for example putting down in writing) the catalogue of American type culture collection according to the composition of publishing from commercial supplier.If lipase Variant is secreted in the nutritional medium, so described variant can directly reclaim from substratum.If variant is not talked about by excretory, then from cell lysate, reclaim it.
The lipase Variant that obtains can reclaim by means commonly known in the art.For example, variant can reclaim from nutritional medium by the step of routine, comprising but be not limited to centrifugal, filtration, extraction, spraying drying, evaporation or precipitation.Can be further purified the variant of recovery then by multiple chromatographic step, for example ion exchange chromatography, gel permeation chromatography, affinity chromatography etc.
Lipase Variant of the present invention can be by multiple step purifying well known in the art, comprising but be not limited to chromatography (for example ion-exchange, affine, hydrophobic, chromatofocusing and size exclusion), electrophoresis step (for example preparing isoelectrofocusing (IEF)), difference solubleness (for example ammonium sulfate precipitation) or extraction and (for example edit referring to " protein purification " J.-C.Janson and Lars Ryden, VCH press, New York, 1989).
Detergent additives
According to the present invention, described lipase usually can be as the additive in the detergent composition.This additive is mixed with liquid, the slurries of non-dusting particle, stabilization or the enzyme that is protected routinely.Non-dusting particle for example can be as US 4,106, disclosed such production in 991 and 4,661,452 (both all belong to NovoIndustri A/S), and can optionally apply by means commonly known in the art.Wax shape surface-coated examples of material be poly-(oxyethane) product with 1000-20000 molecular-weight average (polyoxyethylene glycol, PEG); Nonyl phenol with ethoxylation of 16-50 ethylene oxide unit; The wherein pure Fatty Alcohol(C12-C14 and C12-C18) that contains 12-20 carbon atom and the ethoxylation of 15-80 ethylene oxide unit is wherein arranged; Fatty Alcohol(C12-C14 and C12-C18); Lipid acid; And the monoglyceride of lipid acid, triglyceride and triglyceride level.In GB 1483591, provided the example of the film formation surface coating material that is adapted to pass through the fluidization application.According to the method for having established, for example can stablize liquid enzyme preparation as the polyvalent alcohol of propylene glycol, sugar or sugar alcohol, lactic acid or boric acid and so on by adding.Other enzyme stabilizers is well-known in the art.Can prepare the enzyme that is protected according to disclosed method among the EP 238,216.
For the detergent additives that contains lipolytic enzyme of the present invention, suitable field of activity is that every gram additive has the pure zymoprotein of 0.01-100 milligram.
Detergent composition
The fabric softener composition that detergent composition of the present invention adds in the time of for example can being mixed with the hand washing that comprises laundry additive composition and machine washing detergent composition and being applicable to the composition of the fabric that pre-treatment is dirty, rinsing and be generally used for family's rigid surface clean operation and the composition of the operation of washing the dishes.
Detergent composition of the present invention comprises lipase of the present invention and tensio-active agent.In addition, it can optionally comprise washing assistant, another kind of enzyme, suds suppressor, softening agent, dye transfer inhibitor and other conventional component that adopts in washing composition, such as soil-suspending agent, soil releasing agent, white dyes, abrasive, sterilant, tarnish inhibitor, tinting material and/or encapsulate or the spices of encapsulate not.
Detergent composition of the present invention can be liquid, paste, gel, strip or particulate form.It is neutral or alkaline that pH (measuring in the aqueous solution under the working concentration) is generally, for example in the scope of 7-11, and 9-11 particularly.Particulate composition of the present invention also can be " form of compression ", and promptly they can have than the granulated detergent of routine and exceed a lot of density, are 550-950 g/l.
In detergent composition, lipase of the present invention or the optional another kind of enzyme that mixes in the detergent composition mix with the level of the zymoprotein of the 0.00001%-2% that accounts for composition weight usually, preferably mix, more preferably mix with the level of the zymoprotein of the 0.001%-0.5% that accounts for composition weight with the level of the zymoprotein of the 0.0001%-1% that accounts for composition weight even more preferably mix with the level of the zymoprotein of the 0.01%-0.2% that accounts for composition weight.
Detergent composition of the present invention can comprise that corresponding to every gram washing composition be 10-50, the lipase of the amount of 000 LU, preferred 20-5,000 LU/g, for example 100-1000 LU/g.Can with detergent dissolution in water so that produce the washing lotion contain lipolytic enzyme, it is 25-15 that the amount of wherein said lipolytic enzyme is equivalent to every liter of washing lotion, 000 LU, particularly 100-5000 LU/1 for example are 300-2000 LU/1.The proteic amount of lipase can or be a 0.001-100 mg/l washing lotion for 0.001-10 mg/g washing composition.
More particularly, can be incorporated in WO 97/04079 to lipase of the present invention, WO 97/07202, and W0 97/41212, in the detergent composition described in PCT/DK WO 98/08939 and the WO 97/43375.
Surfactant system
Surfactant system can comprise nonionic, negatively charged ion, positively charged ion, both sexes and/or zwitterionics.As mentioned above, lipase Variant of the present invention is particularly suitable for comprising the washing composition of the combination of negatively charged ion and nonionogenic tenside, wherein anion surfactant accounts for 70-100% and nonionogenic tenside accounts for 0-30% by weight by weight, particularly accounts for the anion surfactant of 80-100% and accounts for the nonionogenic tenside of 0-20%.As further describing, some preferred lipase of the present invention also are applicable to the washing composition that comprises 40-70% anion surfactant and 30-60% nonionogenic tenside.
Tensio-active agent exists with the level of 0.1%-60% (weight) usually, for example 1%-40%, particularly 10-40%, about 20% (weight) of preferably about 3%-.Some examples of tensio-active agent are described below.
Anion surfactant
The preferred anionic surfactants tensio-active agent comprises the mixture of alkyl-sulphate, alkyl ethoxy sulfate, linear alkyl benzene sulfonate and these materials.
Alkyl sulfate surfactant is general formula R OSO
3The water-soluble salt of M or acid, wherein R is preferably C
10-C
24Alkyl is preferably and has C
10-C
20The alkyl of alkyl composition or hydroxyalkyl, more preferably C
12-C
18Alkyl or hydroxyalkyl, and M is hydrogen or positively charged ion, and for example alkali metal cation (for example sodium, potassium, lithium) perhaps is the ammonium of ammonium or replacement.
Alkylbenzene sulfonate is fit to, and especially wherein said alkyl preferably contains linearity (straight chain) alkylbenzene sulfonate (LAS) of 10-18 carbon atom.
Suitable anion surfactant comprises alkyl alkoxylated vitriol, and it is general formula R O (A)
mSO
3The water-soluble salt of M or acid, wherein R is unsubstituted C
10-C
24Alkyl or have C
10-C
24The hydroxyalkyl of alkyl composition, preferred C
12-C
20Alkyl or hydroxyalkyl, more preferably C
12-C
18Alkyl or hydroxyalkyl; A is oxyethyl group or propoxy-unit; M is greater than 0, usually between about 0.5 and about 6, more preferably between about 0.5 and about 3; And M is hydrogen or positively charged ion, and described positively charged ion for example can be the ammonium cation of metallic cation (for example sodium, potassium, lithium, calcium, magnesium etc.), ammonium or replacement.Consider to adopt the vitriol and the propenoxylated vitriol of alkyl of alkyl ethoxylated in this article.The object lesson of the ammonium cation that replaces comprises ammonium methyl positively charged ion, Dimethyl Ammonium positively charged ion, trimethyl ammonium positively charged ion and quaternary ammonium cation (such as tetramethylammonium cation and lupetidine positively charged ion) and those materials (such as ethamine, diethylamine, triethylamine) that derive from alkylamine, its mixture etc.
Other anion surfactant comprises the salt (comprising for example ammonium salt of sodium salt, sylvite, ammonium salt and replacement, such as the salt of monoethanolamine, diethanolamine and trolamine) of soap, C
8-C
22Uncle's sulfonated alkane or secondary sulfonated alkane, C
8-C
24Alkene sulfonate, and the sulfonation poly carboxylic acid of the sulfonation of the pyrolysis product by alkaline earth metal citrate preparation.
Nonionogenic tenside
Described tensio-active agent can comprise the condenses of the polyalkylene oxides (polyalkyleneoxide) (for example polyethylene oxide) of alkylphenol.Described alkyl can contain about 6 to about 14 carbon atoms, described alkyl is a straight or branched.Oxyethane can be about 2 to exist to about 25 moles amount to equal every mole of alkylphenol.
Described tensio-active agent also can comprise uncle's Fatty Alcohol(C12-C14 and C12-C18) and secondary Fatty Alcohol(C12-C14 and C12-C18) and about 1 condensation product to about 25 moles oxyethane.The alkyl chain of Fatty Alcohol(C12-C14 and C12-C18) can be straight chain or side chain, and contain usually about 8 to about 22 carbon atoms.
In addition, nonionogenic tenside can comprise condenses, uncle's Fatty Alcohol(C12-C14 and C12-C18) and secondary Fatty Alcohol(C12-C14 and C12-C18) and about 1 condensation product to about 25 moles oxyethane, alkyl polysaccharide of the polyethylene oxide of alkylphenol and composition thereof.The C that most preferably has 3-15 oxyethyl group
8-C
14Alkylphenol ethoxylate and C with 2-10 oxyethyl group
8-C
18The ethoxylate of alcohol (preferred average out to C
10) and composition thereof.
Preferred nonionic is the mixture of alcohol ethoxylate, alcohol phenol ethoxylate, polyhydroxy fatty acid amide, alkyl poly glucoside and these materials.
Builder system
Composition of the present invention may further include a kind of builder system.The builder system of any routine all is applicable to this paper, comprising alumino-silicate materials, silicate, polycarboxylate and lipid acid, such as the such material of ethylenediamine tetraacetic acid (EDTA) (EDTA), such as the such metal ion chelation agent of aminopolyphosphonic acid salt (aminopolyphosphonate).Also can use phosphate builders in this article.
Suitable washing assistant can be an inorganic ion exchange material, is generally the alumino-silicate materials of inorganic hydration, more specifically is the synthetic zeolite of hydration, such as hydrated zeolite A, X, B, HS or MAP.
Detergent builder compound salt is included in the composition with the amount of the 5%-80% that accounts for composition weight usually.Liquid towards washing composition, the preferred levels of washing assistant are 5%-30%.
Other enzyme
Except lipase of the present invention, detergent composition can also comprise the enzyme that other provides cleaning effect and/or fabric nursing benefit, for example proteolytic enzyme, lipase, at, amylase, cellulase, peroxidase, oxydase (for example laccase).
Suitable proteolytic enzyme comprises those animals, plant or microbe-derived enzyme.Microbe-derived is preferred.Also comprise variant through chemistry or genetic modification.Proteolytic enzyme can be serine protease, preferred alkaline microbial protease or trypsinase proteinoid enzyme.The example of Sumizyme MP is a subtilisin, especially those derive from the subtilisin of bacillus, for example subtilisin Novo, subtilisin Carlsberg, subtilisin 309, subtilisin 147 and subtilisin 168 (being described in WO 89/06279) and variant thereof.
SYNTHETIC OPTICAL WHITNER:
Detergent composition (especially under the situation of granulated detergent) also can comprise SYNTHETIC OPTICAL WHITNER, for example oxygen bleaching agent or halogen bleaching agent.Oxygen bleaching agent can be the hydrogen peroxide releasing agent as perborate (for example PB1 or PB4) or percarbonate and so on, perhaps for example can be percarboxylic acids.Granular size can be the 400-800 micron.When existing, the oxygen bleaching compound exists with about 1% to about 25% level usually.
The hydrogen peroxide releasing agent can be used in combination with bleach-activating agent; described activator is as four-acetylethylenediamine (TAED), nonanoly acyloxy benzene sulfonate (NOBS), 3,5-trimethylammonium-hexsanol oxygen base benzene sulfonate (ISONOBS) or penta-acetyl glucose (PAG).
Halogen bleaching agent for example can be hypohalite (hypohalite) SYNTHETIC OPTICAL WHITNER, for example sodium salt of TCCA (Trichloroisocyanuric acid), dichloroisocyanuric acid and sylvite and N-chloro and N-bromo alkyl group sulphonamide.Usually the amount with the 0.5-10% that accounts for the finished product weight adds this class material, is preferably 1-5% (weight).
Types of detergents
Anionic detergent A
Prepare A type granulated detergent (negatively charged ion accounts for 90% of total surfactant, and the pH in the solution is 10.2) by mixing following ingredients (% weight):
8.7% anion surfactant: LAS (C
10-C
13)
7.4% anion surfactant: AS (C
12)
1.8% nonionogenic tenside: fatty alcohol ethoxylate (C
12-C
15, 7EO)
30% zeolite P (Wessalite P)
18% yellow soda ash
5% Trisodium Citrate
17% sodium sulfate
0.3% carboxymethyl cellulose
6.5% SPC-D monohydrate
2.1% NOBS
Anionic detergent B
By mixing the granulated detergent (negatively charged ion accounts for 79% of total surfactant, and the pH in the solution is 10.2) that following ingredients (% weight) prepares second kind of pattern:
27% anion surfactant: AS (C
12)
7% nonionogenic tenside (C
12-C
15, 7EO)
60% zeolite P (Wessalite P)
5% yellow soda ash
0.6% Sokalan CP5
1.5% carboxymethyl cellulose
Anionic/nonionic type washing composition
By following ingredients being added among the 3.2mM Ca2+/Mg2+ (5:1) that is dissolved in the pure water, prepare a kind of detergent solution (negatively charged ion accounts for 32% of total surfactant, and pH 10.2) of pattern:
0.300g/l alkyl-sulphate (AS; C14-16);
0.650g/l alcohol ethoxylate (AEO; C12-14,6EO);
1.750g/l zeolite P
0.145g/l Na
2CO
3
0.020g/l Sokalan CP5
0.050g/l CMC (carboxymethyl cellulose)
Materials and methods
Method
The activity of lipase (LU)
Make the substrate that emulsifying agent emulsification tributyrin prepares lipase by adopting Sudan Gum-arabic.Using the pH stationary method is the activity of 7 o'clock mensuration lipase in the pH value.The lipase activity (LU) of 1 unit is defined as per minute discharges the required amount of 1 micromole's lipid acid.
Site-directed mutagenesis
In order to make up the upright variant of pouncing on this enzyme of Lay, can use commercial reagents box, the double-stranded site-directed mutagenesis test kit of Chameleon according to the explanation of manufacturers.
The described upright gene of pouncing on this enzyme of Lay of encoding is positioned on the pAHL.Explanation according to manufacturers, by using primer 7258 (SEQ ID NO:1) that the ScaI site of the penbritin gene of pAHL is changed over the MluI site, thereby changed the ScaI site of in ampicillin resistance gene, finding and be used to be cut into the MluI site.
Then, the described upright template of pouncing on the pAHL carrier of this gene of Lay as archaeal dna polymerase and oligonucleotide 7258 and 7770 (SEQ ID NO:2) be will comprise, ScaI site of finding in this gene of Lay and the site that does not change described aminoacid sequence pounced on thereby changed upright.
Comprise the suitable oligonucleotide of required sudden change by interpolation, required sudden change (for example introducing cysteine residues) is incorporated into described upright pouncing in this gene of Lay.
Embodiment
Embodiment 1: the structure of lipase Variant
Aforesaid site-directed mutagenesis is used to make up carries the upright plasmid of pouncing on the gene of this variant of Lay 1S, E239C, Q249R of coding.Used following primer.
(SEQ ID NO:3) is used to introduce E99N, N101S with primer 106659.
(SEQ ID NO:4) is used to introduce SPPCGRRP (E) with primer 101782.
(SEQ ID NO:5) is used to introduce E239C with primer 9639.
(SEQ ID NO:6) is used to introduce Q249R with primer 8829.
Verified sudden change by the sequence of measuring whole gene.With the plasmid called after pEVi1163 that obtains, and in Fig. 1, demonstrate restriction figure.
The structure of Aspergillus carrier pCaHj483
Construct the Aspergillus carrier pCaHj483 shown in Fig. 2 by following fragment:
A) the carrier pToC65 (WO 91/17243) that cuts with EcoRI and XbaI.
B) from 2.7 kb XbaI fragments of the Aspergillus nidulans that carries the amdS gene (people's " gene " 53 (1987) such as C.M.Corrick, 63-71).Selective marker during the amdS gene transformed as fungi.Modified amdS gene is so that destroy the BamHI site of normal presence in this gene.By using the primer shown in the SEQ ID NO:7 to introduce reticent point mutation, realized this process.
C) carry 0.6 kb EcoRI/BamHI fragment of black aspergillus NA2 promotor, described promotor is fused on the 60 bp dna fragmentations of sequence of mRNA 5 ' untranslated end of coding Aspergillus nidulans tpi gene.By PCR, isolate the NA2 promotor the plasmid pNA2 (EP-B-O383779) on being fused to 60 bp tpi sequences.The primer of the 60 bp tpi sequences of encoding has the sequence shown in the SEQID NO:8.
D) carry the XbaI fragment of 675 bp of black aspergillus glucoamylase transcription terminator.This fragment is separated (EP 238023, and application number is the application of EP 87103806.3) from plasmid pICAMG/Term.
With the BamHI site of fragment c by the pIC19R joint be positioned at fragment d and go up XbaI site before the transcription terminator link to each other (BamHI to XbaI).
The structure of expression plasmid pCaHj521
Digest lipase Variant plasmid pEVi 1163 with BamHI and SalI, and isolate the fragment of the coding lipase Variant of gained.
Digest pCaHj483 with BamHI and XhoI, and big carrier segments (6757) is connected on the lipase fragment.To connect mixture and be used for transformed into escherichia coli DH 5a cell, and isolate the transformant that carries the expection plasmid.With this plasmid called after pCaHj 521.
Aspergillus oryzae JaL 228 (PCT/DK 97/00037) is for having lacked the aspergillus oryzae IFO 4177 of Sumizyme MP and neutral metal proteolytic enzyme I.Adopt as in the selection on ethanamide described in the patent EP 0531372B1, transform these bacterial strains with pCaHj 521.Transformant is separated twice through spore again.Test is used for the production of the lipase of fermentation on a small scale (shaking bottle and microtitration ware) from each transformant isolating again spore second time.
Embodiment 2: the scourability first in the anionic detergent
Test multiple variant of the present invention in anionic detergent.Experiment condition is as follows:
Equipment: constant temperature Terg-O-Tometer (Terg-O-tometer)
Method: next 1 round-robin washing is that series is dry
Washing lotion: 1000ml/ beaker
Sample: 7 (cotton goods type #400) samples (9
*9cm)/beaker
Dirt: with the painted lard of Sudan red (0.75mg Sudan red/g lard)
70 ℃ of is coated of 50ml lard/the Sudan red that is heated to onto the center of each sample. exists
After being coated with dirt, in baking oven, under 75 ℃, sample was heated 25 minutes.Washing
Store overnight at room temperature before washing.
Water: 1.07mM Ca
2+/ Mg
2+(5:1)~6 ° dH
The Tide w.Bleach that washing composition: 1.4g/l is commercially available
Lipase concentration: 0.1000 LU/l
Washing time: 12 minutes
Temperature: 25 ℃
Rinsing: rinsing is 15 minutes in the mobile tap water
Dry: at room temperature (~20 ℃ 30-40%RH) are spent the night
Estimate: in Machbeth Coloreye 7000 reflexometers, under 460 nm, measure reflection
Degree.Form with △ R provides the result, △ R (△ reflectance)=containing lipase
The reflectance of the sample that washs in the washing composition-in the washing composition of fatty enzyme not, wash
The reflectance of sample.
Sudden change | The N-end | △R |
?N94K | ?SPPRRP(-E) | 3 |
?N94K+Q249R | ?SPPRRP(-E) | 4 |
?G91A+D96N+E99K+Q249R | ?SPIRPRP(-E) | 3 |
?G91A+D96E+E99K+Q249R | ?SPIRPRP(-E) | 3 |
?G91A+D96W+Q249R | ?SPIRPRP(-E) | 3 |
?G91A+E99K+Q249R | ?SPIRPRP(-E) | 4 |
?E239C | ?SPPCGRRP(-E) | 3 |
?S83T+N94K+D96L+E239C+Q249R | ?SPCRPRP(-E) | 3 |
?E99N+N101S+E239C+Q249R | ?SPPCGRRP(-E) | 4 |
?E99K+Q249R | ?SPIRPRP(-E) | 2 |
?G91A+Q249R | ?SPIRPRP(-E) | 4 |
?G91A+E99K | ?SPIRPRP(-E) | 4 |
?E99N+N101S+E239C | ?SPPCGRRP(-E) | 4 |
?G91A+E99N+N101S+E239C+Q249R | ?SPPCGRRP(-E) | 3 |
?S83T+E99N+N101S+E239C+Q249R | ?SPPCGRRP(-E) | 5 |
?E99N+E239C+Q249R | ?SPPCGRRP(-E) | 3 |
?N101S+E239C+Q249R | ?SPPCGRRP(-E) | 2 |
?D96S+E239C+Q249R | ?SPPCGRRP(-E), | 3 |
?N94S+D96L+E239C+Q249R | ?SPPCGRRP(-E) | 3 |
?E99K+E239C+Q249R | ?SPPCGRRP(-E) | 3 |
?Q249R | ?SPIRPRP(-E) | 3 |
?K98D+E99K+Q249R | ?SPIRPRP(-E) | 3 |
?E99K+D137E+Q249R | ?SPIRPRP(-E) | 4 *) |
?E99K,R209P,Q249R | ?SPIRPRP(-E) | 2 |
?E99K,R209S,Q249R | ?SPIRPRP(-E) | 3 ***) |
?E99K,D137E,E183D,E239C,Q249R | ?SPPCGRRP(-E) | ????2 |
?E99K,R209P,E239C,Q249R | ?SPPCGRRP(-E) | ????6 |
?N94D,E99N,E239C,Q249R | ?SPPCGRRP(-E) | ????5 |
?S83T+Q249R | ????SPIRR | ????5 |
?S83T+E87K+Q249R | ????SPIRR | ?3 *)**) |
D57G+W89F+190V+G91S+Q249R | ?SPIRPRP(-E) | ????4 |
?E1A+N11H+L121+D137G+V187A+K237R+ T244S+Q249R | ????SPIRR | ????2 |
?N8K+F10L+N11C+Q15H+R232G+E239C | ?SPPCGRRP(-E) | ????3 |
?T231K+R232G+N233H+E239C | ?SPPCGRRP(-E) | ????3 |
*Special wash conditions: 1250 LU/l
*Special wash conditions: 30 ℃, 20 minutes washing
* *Special wash conditions: 500LU/l
In order to compare the following lipase Variant of test under identical condition according to WO 97/07202:
Prior art: with the upright Lai Si that pounces on of E1SPIRPRP+D57G+N94K+D96L+L97M+Q249R modification
The result demonstrates △ R=1.3 in the prior art lipase Variant of 1000 LU/l.Therefore, the result clearly illustrates that lipase Variant has the washing effect first of improvement in the washing composition that mainly contains anion surfactant (accounting for more than 80% of total surfactant).
Embodiment 3: the comparison test of washing effect first
As described below, the lipase Variant of prior art among lipase Variant of the present invention and the WO 97/07202 is compared:
The present invention: with the upright Lai Si that pounces on of E1SPPCGRRP+E99N+N101S+E239C+Q249R modification
Prior art: with the upright Lai Si that pounces on of E1SPPRRP+D57G+N94K+D96L+Q249R modification.
Use 1250 or 12,500 LU/l, in commercially available U.S.'s washing composition (Tide), test described two kinds of variants in the mode identical with embodiment 2.The result is as follows
1250?LU/l | ?12,500?LU/l | |
The present invention | ????4.9 | ????11.1 |
Prior art | ????2.1 | ????8.3 |
The result shows that in all cases variant of the present invention all has the better washing effect first in anionic detergent than the variant of prior art.
Embodiment 4: the scourability first in the various washing composition
Described lipase Variant is the upright Lai Si of pouncing on that E1SPPCGRRP+E99N+N101S+E239C+Q249R modifies that has of preparation in embodiment 1.Two kinds of following washing composition of test under the condition identical with embodiment 2:
Anionic detergent
Water: 1.07 mM Ca
2+/ Mg
2+(5:1)~6 ° dH
Washing composition: the Tide w.Bleach that 1.4 g/l are commercially available
Upright this concentration of Lay of pouncing on: 0,800,1600,3200,6400,12800 LU/l
Washing time: 12 minutes
Temperature: 30 ℃
The anionic/nonionic washing composition
Water: 3.2 mM Ca
2+/ Mg
2+(5:1)~18 ° dH
Washing composition: the Ariel Futur. that 3.6 g/l are commercially available
Upright this concentration of Lay of pouncing on: 0,800,1600,3200,6400,12800 LU/l
Washing time: 20 minutes
Temperature: 30 ℃
The dosage of variant | Anionic detergent | The anionic/nonionic washing composition |
????800?LU/l | ????4 | ????6 |
????1600?LU/l | ????7 | ????7 |
????3200?LU/l | ????7 | ????8 |
????6400?LU/l | ????10 | ????10 |
????12800?LU/l | ????11 | ????11 |
Above result show described lipase Variant the washing composition that contains the anion surfactant 80% or more and contain the anion surfactant of about equivalent and the washing composition of nonionogenic tenside in all have good scourability first.
Embodiment 5: the stability in the detergent solution
In order to estimate the stability of described lipase Variant in detergent solution, be determined at the residual activity after the cultivation.Two kinds of washing composition of anion surfactant have been tested: a kind of commercially available U.S.'s washing composition (the Tide w.Bleach HDP of 1.4g/l) and a kind of Japanese washing composition (the Super Compact Top of 0.5 g/l) with high-content (>80%).Also tested and contained the almost anion surfactant of equivalent and the washing composition of nonionogenic tenside: a kind of commercially available European washing composition (the Ariel Futur HDP of 5g/l).
With the solution of various washing composition be heated to 85 ℃ 5 minutes, with the described enzyme of deactivation.With the detergent solution cool to room temperature and regulate pH to pH10.0.Lipase to the concentration of adding purifying in the volume of 5ml is about 10LU/ml, and this solution is divided into two parts:
A) part is used for measuring immediately activity (reference), and
B) part is used for cultivating 30 minutes (sample) down at 30 ℃.
From solution a) and b) take out 100 μ l sample (in refrigerative process rapidly) be used for by above-mentioned LU method replication activity.
Remaining activity after cultivating is calculated as activity in the sample
The surfactant detergent residual activity
Be mainly the negatively charged ion U.S. 65%
Be mainly negatively charged ion Japan>90%
Negatively charged ion+nonionic Europe 91%
B) be equivalent to the activity of sample in a).The result is as follows:
The similar experiment of the European detergent solution of employing demonstrates 61% residual activity was arranged after 20 minutes under 40 ℃.
The result shows that described lipase Variant all is a quite stable in the detergent solution of the detergent solution that mainly contains anion surfactant and anion surfactant that contains equivalent almost and nonionogenic tenside.
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Claims (18)
1, a kind of lipase, described lipase are the polypeptide with following aminoacid sequence:
A) described sequence and derive between the wild-type lipase of Humicola lanuginosa strain DSM 4109 and have at least 90% identity;
B) compare with said wild-type lipase, described sequence comprises the peptide extension that links to each other with the N-end of a positively charged;
C) described sequence comprises the locational electronegative amino acid of the E210 at said wild-type lipase; And
D) described sequence comprises one corresponding to the electronegative amino acid in the zone of said wild-type lipase 90-101 position; And
E) described sequence comprises one corresponding to the locational electroneutral or electronegative amino acid of the N94 of said wild-type lipase and/or have negative or the neutral net charge in the zone corresponding to said wild-type lipase 90-101 position.
2, a kind of lipase, described lipase are the polypeptide with following aminoacid sequence:
A) described sequence and derive between the wild-type lipase of Humicola lanuginosa strain DSM 4109 and have at least 90% identity;
B) compare with said wild-type lipase, described sequence comprises the peptide extension that links to each other with the N-end of a positively charged;
C) described sequence comprises the locational electronegative amino acid of the E210 at said wild-type lipase; And
D) described sequence is included in the amino acid of at least two locational electric charges that have negative electricity or do not have to change of said wild-type lipase N94, D96 and E99 position.
3, claim 1 or 2 lipase, wherein said peptide extension is made up of 1-15 amino-acid residue (preferred 4-10), and preferably includes the amino acid of 1,2 or 3 positively charged, is preferably 1,2 or 3R.
4, the lipase of claim 3, wherein said extension are SPIRR, RP (E), SPIRPRP (E), SPPRRP (E) or SPIRPRP (E).
5, arbitrary lipase of claim 1-3, wherein said extension comprise with described polypeptide in second C that C links to each other, preferably the SPPCGRRP that links to each other with E239C (E), SPCRPR, SPCRPRP (E), (E), (E), SPPCRRRP (E) or SCIRR for SPPNGSCGRRP for SPPCGRRPRRP.
6, arbitrary lipase in the aforementioned claim, described enzyme comprise replacement G91A, N94D/E/K/R, D96E/I/L/N/S/W, E99N/Q/K/R/H, N101S, R209P/S or Q249R/K/H.
7, arbitrary lipase in the aforementioned claim, described lipase comprise that following each group one of replaces, and described replacement can optionally be made up with Q249R/K/H and/or K98X:
A) G91G/A/S/T+N94 (electric neutrality or electronegative)+D96D/E/C/Y+E99E/D/C/Y,
B) G91G/A/S/T+N94 (electric neutrality or electronegative)+D96D/E/C/Y+E99N+N101S,
c)G91G/A/S/T+N94R/K/H+D96D/E/C/Y+E99E/D/C/Y,
D) G91G/A/S/T+N94 (electric neutrality or electronegative)+D96 (electric neutrality or positively charged)+E99E/D/C/Y, or
E) G91G/A/S/T+N94 (electric neutrality or electronegative)+D96D/E/C/Y+E99 (electric neutrality or positively charged).
8, arbitrary lipase of claim 1-6, described lipase comprise that following each group one of replaces, and described replacement can optionally be made up with Q249R and/or R209 (electric neutrality or electronegative):
a)E99R/K/H+Q249R/K/H,
B) N94R/K/H+Q249R/K/H, or
C) D96 (electric neutrality or positively charged)+Q249R/K/H.
9, a kind of lipase, described lipase are the variant with parental generation lipase that derives from Humicolalanuginosa strain DSM 4109 of following modification:
a)E99N+N101S+E239C+Q249R+SPPCGRRP(-E),
B) E99K+E239C+Q249R+SPPCGRRP (E), or
c)E99N+E239C+Q249R+SPPCGRRP(-E)。
10, a kind of detergent composition, described detergent composition comprise arbitrary lipase of tensio-active agent and claim 1-9.
11, the detergent composition of aforementioned claim, wherein said tensio-active agent comprise the anion surfactant of the amount more than 70% that accounts for total surfactant weight.
12, the detergent composition of claim 10, wherein said tensio-active agent comprise the 40-70% that accounts for total surfactant weight amount anion surfactant and account for the nonionogenic tenside of amount of the 30-60% of total surfactant weight, described lipase is the lipase of claim 8 or 9.
13, arbitrary detergent composition of claim 10-12, described detergent composition comprises the tensio-active agent of 10-40% (weight), preferably includes the washing assistant of 40-70%, and preferably has the pH value of 9-11 when being dissolved in the water with 0.5-5g/l.
14, the dna sequence dna of arbitrary lipase of coding claim 1-9.
15, carry the expression vector of the dna sequence dna of aforementioned claim.
16, the transformed host cells that contains the expression vector of the dna sequence dna of claim 14 or claim 15.
17, a kind of method of producing lipase, this method are included in the transformed host cells of cultivating claim 16 under the condition that helps to produce described lipase, and reclaim described lipase from the meat soup that obtains.
18, a kind of method of producing variant lipase, this method comprises:
A) select to have the parental generation lipolytic enzyme of a certain aminoacid sequence, described aminoacid sequence and derive between the wild-type lipase of Humicola lanuginosa strain DSM 4109 and have at least 90% identity;
B) nucleotide sequence of modifying the described parental generation lipase of coding to be producing the nucleic acid of coding variant lipase, and described variant lipase is included in the peptide extension of N-end and in following locational amino acid whose replacement:
ⅰ) in zone corresponding to said wild-type lipase 90-101 position, or
ⅱ) on the surface of the three-dimensional structure in 6 dust scopes of arbitrary position of described 90-101 position,
C) nucleic acid of expressing described modification in host cell to be producing described variant lipase,
D) washing effect first of variant lipase described in the test detergent solution, described detergent solution comprise that its amount surpasses 70% anion surfactant of total surfactant weight,
E) repeating step b-d optionally, and
F) selection has the variant of the washing effect first of improvement.
Applications Claiming Priority (3)
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DK0217/1998 | 1998-02-17 | ||
DK0217/98 | 1998-02-17 | ||
DK21798 | 1998-02-17 |
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CN1300319A true CN1300319A (en) | 2001-06-20 |
CN1247776C CN1247776C (en) | 2006-03-29 |
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CN 99803019 Expired - Fee Related CN1247776C (en) | 1998-02-17 | 1999-02-17 | Lipase variant |
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AT (1) | ATE328070T1 (en) |
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Cited By (6)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN101541956B (en) * | 2006-11-28 | 2012-04-18 | 诺维信公司 | Lipolytic enzyme variants |
CN101743308B (en) * | 2006-12-21 | 2015-09-16 | 诺维信公司 | For the lipase Variant of pharmaceutical use |
CN101370933B (en) * | 2006-01-23 | 2015-11-25 | 诺维信公司 | Lipase variant |
CN107922935A (en) * | 2015-08-28 | 2018-04-17 | 荷兰联合利华有限公司 | Liquid detergent compositions comprising lipase and protease |
CN109563495A (en) * | 2016-06-30 | 2019-04-02 | 诺维信公司 | Lipase Variant and composition comprising surfactant and lipase Variant |
CN113862238A (en) * | 2014-12-22 | 2021-12-31 | 诺维信公司 | Detergent compositions, lipase variants, and polynucleotides encoding same |
-
1999
- 1999-02-17 AT AT99934304T patent/ATE328070T1/en not_active IP Right Cessation
- 1999-02-17 DE DE69931607T patent/DE69931607T2/en not_active Expired - Lifetime
- 1999-02-17 CN CN 99803019 patent/CN1247776C/en not_active Expired - Fee Related
Cited By (9)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN101370933B (en) * | 2006-01-23 | 2015-11-25 | 诺维信公司 | Lipase variant |
CN105296445A (en) * | 2006-01-23 | 2016-02-03 | 诺维信公司 | Lipase variants |
CN105296445B (en) * | 2006-01-23 | 2022-05-10 | 诺维信公司 | Lipase variants |
CN101541956B (en) * | 2006-11-28 | 2012-04-18 | 诺维信公司 | Lipolytic enzyme variants |
CN101743308B (en) * | 2006-12-21 | 2015-09-16 | 诺维信公司 | For the lipase Variant of pharmaceutical use |
CN105112386A (en) * | 2006-12-21 | 2015-12-02 | 诺维信公司 | Lipase variants for pharmaceutical use |
CN113862238A (en) * | 2014-12-22 | 2021-12-31 | 诺维信公司 | Detergent compositions, lipase variants, and polynucleotides encoding same |
CN107922935A (en) * | 2015-08-28 | 2018-04-17 | 荷兰联合利华有限公司 | Liquid detergent compositions comprising lipase and protease |
CN109563495A (en) * | 2016-06-30 | 2019-04-02 | 诺维信公司 | Lipase Variant and composition comprising surfactant and lipase Variant |
Also Published As
Publication number | Publication date |
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CN1247776C (en) | 2006-03-29 |
ATE328070T1 (en) | 2006-06-15 |
DE69931607D1 (en) | 2006-07-06 |
DE69931607T2 (en) | 2007-05-16 |
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