CN1807604A - Chinese grape wild species east China grape stilbene synthetase gene sequence and its use - Google Patents
Chinese grape wild species east China grape stilbene synthetase gene sequence and its use Download PDFInfo
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- CN1807604A CN1807604A CN 200510041662 CN200510041662A CN1807604A CN 1807604 A CN1807604 A CN 1807604A CN 200510041662 CN200510041662 CN 200510041662 CN 200510041662 A CN200510041662 A CN 200510041662A CN 1807604 A CN1807604 A CN 1807604A
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Abstract
The invention relates to a Chinese grape stilbene synthetase gene sequence of wild species of China grape and application thereof, the invention adopts mRNA differential display technology (mRNA differential display reverse transcription-PCR, DDRT-PCR) combined with Rapid end amplification technology (Rapid amplification cDNA ends, RACE) to clone disease-resistant related genes of Chinese grape wild species China grape (Vitspeuproviding) namely 7 stilbene synthetase (stilbene synthetase) gene family members, the sizes of the stilbene synthetase gene family members are 1288bp, 1343bp, 1411bp, 1468bp, 1492bp, 1506bp and 1556bp respectively, and the stilbene synthetase gene sequences and the applications code 392 amino acids. The gene coding product stilbene synthetase can convert 1 molecule of Coumaroyl coenzyme A (P-Coumaroyl-CoA) and 3 molecules of Malonyl coenzyme A (Malonyl-CoA) into resveratrol. Resveratrol as a plant protection element not only resists bacteria, but also has the functions of resisting oxidation, preventing cardiovascular diseases, preventing cancers, reducing blood fat and the like. The invention relates to a transgenic method for making plants such as wheat, tomato, rice, corn, soybean and rape have the capability of synthesizing resveratrol, improving the disease resistance of the plants and increasing the nutrition and health care functions of the plants.
Description
Technical field
The present invention relates to plant disease resistance genes clone and gene engineering technology field, particularly Chinese wild vitis species stilbene synthase gene full length sequence and application thereof.
Background technology
Trans-resveratrol (Resveratrol), chemistry is called 3,4 ', the 5-resveratrol (3,4 ', 5-Trihydrolystilbene), be a kind of natural diphenylethylene polyphenol substance in the plant materials.Nineteen twenty-four just is found, and finds this material in 1974 in vitis spp.Present known trans-resveratrol also is present in 72 kind of plant of 12 kinds of 31 genus such as mulberry tree, peanut, Stem of Smalleaf Jointfir, Maackia amurensis Rupr et Maxim, and vitis spp ranks first place with regard to its content.In vitis spp, it is higher that Chinese wild grape is partly planted the content of trans-resveratrol, as Vitis heyneana Roem. et Schult. (Vitis quinquangularis) merchant-24,83-4-96 and East China grape (Vitis pseudoreticulata) Baihe-35-1 etc.Trans-resveratrol is as the resistance material of vitis spp---and a kind of plant protecting chemical (phytoalexin) has the effect of disease-resistant bacterium.After Kreps discovered that Seyve Villard, Portugalske Modre, Riesling and Miller are told the blade inoculation gray mold pathogenic bacteria (Botrytis cinerea) of your high kind, the disease resistance of kind became positive correlation with the content of trans-resveratrol.Fregoni discovers the strong resistance of the high person of plant Resveratrol content to gray mold.After grape is subjected to gray botrytis (Botrytis cinerea) and infects, the downright bad fruit of distance is nearer and Resveratrol content that be not subjected to infecting in the fruit is very high, and it all has obvious restraining effect to gray botrytis, streptococcus aureus, pneumococcus etc.The trans-resveratrol that Giesbrech etc. extract from Colombia Stem of Smalleaf Jointfir (Gnetunpariculatium) has the effect of anti-streptococcus aureus (Slaphylococucsaureus), staphylococcus epidermidis (Sepidermidis) and M. smegmatics (Mycobacteriam Smegmtics).In addition, anti-oxidant in addition, prevention cardiovascular diseases and effects such as anti-cancer, reducing blood-fat of trans-resveratrol.
Stilbene synthase (Stilbene synthase) is the enzyme that plays a crucial role in the trans-resveratrol biosynthetic process.Schoppner and kindl (J.Biol.Chem., 1924) discover that stilbene synthase can be converted into trans-resveratrol to 1 molecule coumaric acyl coenzyme A (P-Coumaroyl-CoA) and 3 molecule malonyl coenzyme As (Malonyl-CoA).(FEBS Letters such as Melchior, 1990) discover that stilbene synthase gene exists with gene family in plant, from pine tree, peanut, riverside grape (Vitis riparia), vitis vinifera plants such as (Vitis vinifera), separated stilbene synthase gene.
Pause two scientist P.Liang of Dena-Farber ICR and mRNA differential display technique (the mRNA differential display reversetranscription-PCR that A.D Pardee sets up in U.S. Persian in 1992, DDRT-PCR) (Science, 1992), because it is few, highly sensitive that this technology has a RNA consumption, easy and simple to handle fast and can analyze characteristics such as low abundance mRNA, thereby obtained using widely at aspects such as inquiring into disease-resistant mechanism and clone new gene.
Summary of the invention
The objective of the invention is to, the stilbene synthase activated protein that provides Chinese Portugal to belong to wild species East China grape stilbene synthase gene sequence and coding thereof is used.
To achieve these goals, the present invention adopts the mRNA differential display technique to carry out Chinese wild vitis species mildew-resistance (Uncinula necator schw.Burr.) gene clone first, has obtained powdery mildew resistance gene-stilbene synthase gene cDNA fragment T
11The nucleotide sequence of AC/B0320-723.Classify the basis as with this nucleotides sequence, adopt the terminal rapid amplifying technology of cDNA (Rapid amplification ofcDNA ends, RACE) (Frohman et al, Proc.Natl.Acad.Sci, 1988) have obtained 7 cDNA full length nucleotides of stilbene synthase gene family member sequence.
The present invention passes through the gene pyramiding technology first with the distinctive VPSTS7 of Chinese wild vitis species, VPSTS6, VPSTS5, VPSTS4, VPSTS3, VPSTS2,7 stilbene synthase genes such as VPSTS1 change susceptible vitis vinifera kind over to, wheat, tomato, paddy rice, corn, soybean, plants such as rape are improved disease resistance, improve the content of these plant function composition trans-resveratrols, when people get these vegetable food products of food, can reach prevention cardiovascular diseases and anti-cancer, fall purposes such as blood ester, also provide the molecule foundation for further studying Chinese grape wild species stilbene synthase gene expression mechanism.
Description of drawings
Fig. 1 is the picture of 5 ' RACE and 3 ' RACE;
Fig. 2 is that 3 ' RACE cDNA segment enzyme is cut the qualification result picture;
Fig. 3 is Chinese wild vitis species East China grape (vitis pseudoreticulata) STS1 full length gene sequence;
Fig. 4 is Chinese wild vitis species East China grape (Vitis pseudoreticulata) STS2 full length gene sequence;
Fig. 5 is Chinese wild vitis species East China grape (Vitis pseudoreticulata) STS3 full length gene sequence;
Fig. 6 Chinese wild vitis species East China grape (Vitis pseudoreticulata) STS4 full length gene sequence;
Fig. 7 is Chinese wild vitis species East China grape (Vitis pseudoreticulata) STS5 full length gene sequence
Fig. 8 is Chinese wild vitis species East China grape (Vitis pseudoreticulata) STS6 full length gene sequence;
Fig. 9 is Chinese wild vitis species East China grape (Vitis pseudoreticulata) STS7 full length gene sequence;
Figure 10 Chinese wild vitis species stilbene synthase gene Nucleotide cluster analysis picture;
Figure 11 Chinese wild vitis species stilbene synthase gene amplification picture, wherein symbol is: 1.PCR product, M.DNA Marker DGL 2000;
Figure 12. the double digestion of recombinant expression vector is identified picture, and symbol is among the figure: 1,2 recombinant expression vectors; 3, the recombinant expression vector crossed of 4.BamHI/XhoI double digestion; M.Marker;
Figure 13 Expression of Fusion Protein and purifying picture, symbol is among the figure: 1. inducing changes empty pGEX-4T-1 bacterial protein; 2. induce the reorganization bacterial protein; 3. induce white protein on the reorganization cellular lysate liquid; 4. induce reorganization cellular lysate liquid precipitate albumen; 5. washed inclusion body; 6, the 7. fusion rotein of renaturation and purifying;
Figure 14 is the design of graphics of medial expression vector;
Figure 15 is the design of graphics of stilbene synthase gene plant expression vector.
Figure 16 is an observations under the OLYMPUS DP70 fluorescent microscope (blue color filter), A: transform stilbene synthase gene (STS) grape; B: unconverted wheat; C: transform stilbene synthase gene (STS) wheat.
Below in conjunction with accompanying drawing the present invention is described in further detail.
Embodiment
The Chinese wild vitis species East China grape stilbene synthase gene sequence concrete operations step that the present invention obtains is as follows:
A. adopt improved SDS/ phenol method (fruit tree journal, Zhang Jinjin etc., 2003,20 (3): 178-181) in inoculating the same day, promptly the 0th day, and inoculate back 1,3,5,7, the 9d sampling extraction grape Baihe, Chinese wild vitis species East China-total RNA of 35-1 blade, cDNA first chain is synthesized in reverse transcription.With cDNA first chain is template, uses dT
11GG, dT
11AG, dT
11AC, dT
11CC, dT
11S421~S440 that 5 anchor primers such as CG and Operon company produce and B0301~B0326 totally 46 random primers have formed primer to (primer pairs) 230, have carried out pcr amplification.After 6% polyacrylamide gel electrophoresis analysis DDRT-PCR product, silver dye, anchor primer 5 ' TTTTTTTTTTTAC 3 ' (dT
11AC) primer of forming with random primer 5 ' CATCAATCGC 3 ' has obtained the cDNA fragment T of Chinese grape wild species mildew-resistance gene differential expression to pcr amplification
11AC/B0320-700, this fragment is not expressed in nonvaccinated material, and expresses behind inoculation uncinula necator pathogenic bacteria;
B. use boiling method (molecular cloning experiment guide second edition, J. work such as Sa nurse Brooker, Jin Dongyan etc. translate, Science Press, 1998) reclaim this difference cDNA fragment, after the secondary PCR amplification, reclaim this difference cDNA fragment and be connected with pGEM-T easy carrier, connect product transformed into escherichia coli DH5 α competent cell, cultivate on the LB flat board that contains Amp (100 μ gml-1) and X-gal/IPTG, blue hickie Screening and Identification is selected white colony and is cultivated.Reclaim plasmid with UNIQ-10 pillar plasmid a small amount of extraction agent box, cut with EcoR I enzyme and identify the positive colony that has exogenous dna fragment to insert.Send the order-checking of Dalian Bao Sheng biotech firm with positive colony, sequencing result shows, difference cDNA fragment T
11AC/B0320-700 nucleotide sequence total length 723bp;
C. the grape Baihe, the Chinese wild vitis species East China-total RNA of 35-1 blade that extracts with inoculation uncinula necator pathogenic bacteria 7d is a template, synthetic respectively 5 ' RACE of reverse transcription and 3 ' RACE cDNA, first chain.5 ' RACE and 3 ' RACE pcr amplification have been carried out respectively with 5 ' RACE primer GSP15 ' TTCGGAAGGTCCTCGGAATGTAACAGC 3 ' and 3 ' RACE primer GSP25 ' CAGGTGGAACTGTCCTTCGAACCGC 3 '.5 ' RACE PCR product, 7.0 μ l are carried out 1.2% agarose gel electrophoresis obtain a size about 750bp (Fig. 1), this cDNA fragment actual size is 768bp behind the cloning and sequencing.
Get 3 ' RACE PCR product, 7.0 μ l and carry out 1.2% agarose gel electrophoresis, obtained 5 the cDNA fragments (Fig. 1) of size between 900~1000bp.Reclaiming test kit with DNA glue reclaims these 5 cDNA fragments respectively, clones, obtain a large amount of hickie recons, 5 hickie clones of each cDNA fragment cloning product random choose carry out enzyme and cut evaluation, 5 enzymes of 5 '-1 are cut product and have been produced 1 bar segment of making great difference, 5 enzymes of 5 '-2 are cut product and have been produced 3 bar segment that vary in size, 5 of 5 '-3,5 '-4 and 5 '-5 have produced 2 endonuclease bamhis that vary in size respectively, and common property has been given birth to 10 of the cDNA fragments (Fig. 2) that vary in size.To produce the recombinant clone order-checking of these 10 cDNA, sequence size is respectively 983bp, 933bp, 919bp, 895bp, 839bp, 770bp, 715bp, 491bp, 476bp, 351bp;
D. 113bp's is overlapping because the cDNA fragment of the 5 ' RACE that obtained and 3 ' RACE has, therefore, 10 cDNA fragments that 3 ' RACE is obtained respectively with 1 cDNA fragment assembly of 5 ' RACE, obtain 10 cDNA sequences after removing overlap, its size is respectively 924bp, 1049bp 1064bp, 1288bp (Fig. 3), 1343bp (Fig. 4), 1411bp (Fig. 5), 1468bp (Fig. 6), 1492bp (Fig. 7), 1506bp (Fig. 8) and 1556bp (Fig. 9).
E. these 10 cDNA sequences are networked to www.ncbi.nlm.nih.gov and carry out the open reading frame analysis, wherein cDNA fragment 1556bp, 1506bp, 1492bp, 1468bp, 1411bp, 1343bp and 1288bp have complete open reading frame, 392 amino acid, called after VPSTS7, VPSTS6, VPSTS5, VPSTS4, VPSTS3, VPSTS2, VPSTS1 respectively all encode; CDNA fragment 1064bp, 1049bp and 924bp have imperfect open reading frame.Like this, we have just obtained 7 cDNA full length sequences of Chinese wild vitis species stilbene synthase gene family member.These 7 gene nucleotide series homologys are higher, between 90%-100% (Figure 10).
Through on GenBank, retrieving, (accession number is AB046373 for they and Vitis riparia stilbene synthase gene, total length 1618bp), (accession number is AB046374 to Vitis labrusca stilbene synthase gene, total length 1618bp), (accession number is AY094615 to Parthenocissus henryana stilbene synthase gene, total length 1179bp), (accession number is AY094616 to Cissus rhombifolia stilbene synthase gene, total length 1179bp), (accession number is AY094617 to Parthenocissus quinquefolia stilbene synthase gene, total length 1179bp) homology is about 94%, proves the distinctive stilbene synthase gene of new Chinese wild vitis species.
Embodiments of the invention 1:
Adopt the SDS/ phenol method of improving (fruit tree journal, 2003,20 (3): 178-181), extract the grape Baihe, the Chinese wild grape East China-total RNA of 35-1 blade after powdery mildew pathogenic bacteria is induced.CDNA first chain is synthesized in reverse transcription.According to acquired Chinese wild vitis species stilbene synthase gene nucleotide sequence design one couple of PCR primer: 5 ' TAGGATCCATGGCTTCAGTTGAGGAAAT 3 ' and 5 ' GCCTCGAGTTAATTTGTAACCATAGG 3 '.In 25 μ l reaction mixtures, comprise cDNA first chain 2.5 μ l, GSP1 (10 μ m) 1 μ l, GSP2 (10 μ m) 1 μ l, 1.0 μ l dNTPs Mix (10mM), 1.0 μ l Taq DNA polymerase, PCR Buffer 2.5 μ l, PCR-Grade water34.5 μ l, come-up 25 μ l mineral oil behind the mixing.The pcr amplification program is 94 ℃ of 30s, 68 ℃ of 30s, 72 ℃ of 2min, 35 circulations; 72 ℃ of 10min.After reaction finishes, carry out 1.2% agarose gel electrophoresis and reclaim this cDNA segment (Figure 11), and be connected with pGEM-T easy carrier, connect product transformed into escherichia coli DH5 α competent cell, cultivate on the LB flat board that contains Amp (100 μ gml-1) and X-gal/IPTG, blue hickie screening is selected white colony and is cultivated.Reclaim plasmid with UNIQ-10 pillar plasmid a small amount of extraction agent box, cut with EcoR I enzyme and identify the positive colony that has exogenous dna fragment to insert.This cDNA fragment actual size is 1179bp after the order-checking, and sequential analysis shows that this cDNA fragment is the Chinese wild vitis species stilbene synthase gene.
Embodiments of the invention 2:
The purpose fragment of downcutting behind the recombinant cloning vector double digestion with embodiment 1 acquisition is connected with the prokaryotic expression carrier pGEX-4T-1 that crosses through same double digestion, the e. coli bl21 cell of transformed competence colibacillus, extract plasmid, the BamHI/XhoI enzyme is cut evaluation, the positive reorganization of screening bacterium (Figure 12).The reorganization bacterium is through the IPTG abduction delivering, and is centrifugal, is resuspended in sample-loading buffer (50mM Tris-HCl pH6.8,2%SDS, 0.1% bromjophenol blue, 10% glycerine, 100mM DTT), boils in the boiling water 3-5 minute, carries out the SDS-PAGE electrophoresis.Set simultaneously the IPTG concentration gradient (0.1mm, 0.2mM, 0.3mM, 0.4mM) and time contrast (1h, 2h, 3h, 4h, 5h 6h), determines that the optimum expression condition is IPTG 0.3mM, induces 5 hours for 30 ℃.
Recombinant prokaryotic expression vector transforms expresses bacterium, 37 ℃ of following 0.3mM IPTG induced 5 hours, handle through last sample, carry out the SDS-PAGE electrophoresis detection, contrast with the bacterium sample total protein through inducing the conversion empty plasmid equally, recombinant expressed bacterium has a specifically expressing band about molecular weight 65KD, prove that goal gene has obtained expression at this expression system, through the gray scale scanning analysis, the target protein expression amount accounts for bacterial protein 21% (Figure 13).Target protein is mainly with the inclusion body formal representation, through still not improving the target protein solubility after the expression condition optimization, therefore by inclusion body sex change dissolving, the gradient renaturation, make that target protein can combine with the gst fusion protein purification media, wash-out, thereby make the purpose fusion rotein obtain purifying (Figure 13).
Embodiments of the invention 3:
The STS gene fragment that the recombinant cloning vector that embodiment 1 is obtained downcuts 1.1kb with BamHI/SacI, and directed the insertion on the medial expression vector (Figure 14) of BamHI/SacI double digestion make up plant expression vector (Figure 15).The plant expression vector that builds is transformed Agrobacterium through improving freeze-thaw method, on the YEB substratum of additional kantlex and gentamicin, screen, the picking resistance clone, extract plasmid DNA and carry out the PCR evaluation, the special band that amplifies 1.1kb, show successfully to have made up the stilbene synthase gene plant expression vector, and import agrobacterium tumefaciens GV3101.
The single bacterium colony (carrying the binary vector pWR-STS of goal gene) of picking GV3101 from the YEB flat board is inoculated into 20mlYEB liquid nutrient medium (additional Kan 60ug/ml, Gent 20ug/ml), 200rpm, 28 ℃ of 24h (OD600=0.6); Get 15ml bacterium liquid, 4 ℃, 5000rpm, the 5min collecting precipitation, and with the MS liquid nutrient medium (additional 1mg/l BAP, 0.1mg/l 2,4-D) resuspended precipitation, and be diluted to OD600=0.6 with above-mentioned substratum, adding AS, final concentration is 20mg/l; Get blade from the sterile test tube seedling, be cut into the leaf dish of 40mm2, it is immersed in the previously prepd Agrobacterium bacterium liquid cultivate 10min; Take out the leaf dish and place on the aseptic filter paper, remove the unnecessary Agrobacterium bacterium liquid in filter paper surface; Change above-mentioned leaf dish over to MS substratum (additional 1mg/l BAP, 0.1mg/l 2,4-D and 1%PVPP) and cultivate 3d (the dark cultivation) altogether; Change the leaf dish of cultivating altogether behind the 3d over to screening culture medium:
MS (Gu)+1mg/l BAP+0.1mg/l 2,4-D+1%PVPP+15ug/ml Hyg B+400ug/lCef; Carry out the GUS activation analysis after two months, be taken at the callus of selecting to cultivate 2 months on the substratum and carry out the GUS histochemical stain; Can carry out simultaneously green fluorescent protein and detect (Figure 16); Root media: NN69+1mg/l BAP+0.1mg/l IBA, 4 ℃ of dark cultivations for 2 weeks, 25 ℃ then, 16h light is cultivated, and 8h secretly cultivates, and obtains transgene tobacco and transgenosis grape novel material and new variety that stilbene synthase gene is expressed at last.
Embodiments of the invention 4:
The stilbene synthase gene plant expression vector that embodiment 3 is obtained imports agrobacterium tumefaciens GV3101, adopt the agrobacterium tumefaciens method stilbene synthase gene successfully to be imported improved seeds such as tomato, soybean, rape, new germ plasm and novel materials (method is with example 3) such as the transgenic Fructus Lycopersici esculenti that the acquisition stilbene synthase gene is expressed, soybean, rape.
Adopt particle bombardment stilbene synthase gene to be imported improved seeds such as corn, wheat, paddy rice.The pre-treatment of material: before the particle gun bombardment, change the wheat explant over to contain permeate agent 0.125M N.F,USP MANNITOL and 0.125M Sorbitol Powder inducing culture earlier, the faint yellow fresh callus 4 ~ 6h before conversion that produces is carried out osmotic treated, the bombardment material is concentrated and is placed culture dish (diameter 9cm) center to be not more than in the scope of 3cm, 25 ℃, the dark cultivation.With 70% ethanol to rifle chamber and gas acceleration tube sterilization; With flying disc with can split disk and in 100% ethanol, soaks 5min and sterilize, in super clean bench, dry up then; Pipette 5ul bronze microparticle suspending liquid respectively in each flying disc (having pacified the village on set collar), in super clean bench, dry up (5min).From A pipe (contrast), pipette the bronze microparticle suspending liquid, be used to prepare two flying discs (for the usefulness of bombardment dull and stereotyped 1 and 2), each flying disc 5ul; From the B pipe, pipette the bronze microparticle suspending liquid and respectively prepare three flying discs (being respectively applied for bombardment dull and stereotyped 3~5), each flying disc 5ul.Once can from every pipe bronze microparticle suspending liquid, take a sample and prepare 5 flying discs, decide on test design; Open the helium cylinder valve, regulate pressure-regulator (at the other end of helium cylinder valve), make emission pressure reach 1300psi and (promptly be higher than and split disk pressure-bearing value 200~300psi).
Start vacuum pump; Can split disk and be placed in the fixed cap, screw; Flying disc is installed (having one of particulate faces down), then they are put into rifle indoor (counting the second layer from top to bottom); The culture dish that will contain WHEAT CALLUS is placed on the sample holder, inserts the indoor layer 5 of rifle, shuts rifle chamber door; Open vacuum valve, when vacuum tightness reaches 25~28 inches of mercury (inches of Hg), press " Fire " button and keep this state, till hearing that gas breaking can split the sound of disk; Eliminate vacuum state, sample is taken out; From step 6 beginning repetitive operation, finish the processing of all samples; Will be with not wrapping the cell crossed by the bronze microparticle bombardment of DNA (dull and stereotyped 1 and 2) 23 ℃ of black dull cultivations 48 hours down on non-selective substratum; To secretly cultivate 24 hours down at 23 ℃ with the cell (dull and stereotyped 3,4 and 5) that bag is crossed by the bronze microparticle bombardment of pWR-STS plasmid DNA; Callus after bombarding is continued to cultivate 16h in the infiltration substratum, forward transition cultivation 2 week acquisition transgenic wheat plant (Figure 16) in the former substratum then to.Make these plants that do not contain trans-resveratrol also have the ability of synthesizing resveratrol, improve their disease resistance to fungal disease, also improve simultaneously the nutrient health-care function of these species, make people by eating these things, can prevent platelet aggregation, remove free radical, antianaphylaxis, antitumor etc.In addition, these transgenic lines also can be used as the germplasm of further disease-resistant by the cross-breeding seed selection and these species nutrient health-care functions of raising.
Gene order
Chinese wild vitis species East China grape (Vitis pseudoreticulata) STS1 full length gene sequence
1 AACCCAGCTC?CAAGAACGCT?TCTCTTTCCT?TCCTCAACTT?AATCTTAAGC?TTTCATTTCA
61 GTACGTAGCT?GGCATCAATG?GCTTCAGTTG?AGGAAATTAG?AAACGCTCAA?CGTGCCAAGG
121 GTCCGGCCAC?CATCCTAGCC?ATTGGCACAG?CTACTCCCGA?CCACTGTGTC?TACCAGTCTG
181 ATTATGCTGA?TTACTATTTC?AGGGTCACTA?AGAGCGAGCA?CATGACTGAG?TTGAAGAAGA
241 AGTTCAATCG?CATATGTGAC?AAATCAATGA?TAAAAAAGCG?TTACATTCAT?TTGACTGAAG
301 AAATGCTTGA?AGAACATCCA?AACATTGGTG?CTTATATGGC?TCCATCTCTT?AACATACGCC
361 AAGAGATTAT?CACAGCTGAG?GTACCTAAGC?TTGGTAAGGA?AGCAGCATTG?AAGGCACTTA
421 AAGAGTGGGG?CCAGCCAAAG?TCCAAGATCA?CCCACCTTGT?ATTTTGTACA?ACCTCTGGTG
481 TAGAAATGCC?TGGTGCTGAT?TATAAACTTG?CTAATCTCTT?GGGTCTTGAA?ACTTCAGTTA
541 GAAGAGTTAT?GTTGTACCAT?CAAGGGTGCT?ATGCAGGTGG?AACTGTCCTT?CGAACCGCTA
601 AGGATCTTGC?TGAGAATAAT?GCAGGAGCAC?GGGTTCTCGT?GGTGTGCTCT?GAGATCACCG
661 TTGTTACATT?CTGTGGGCCT?TCTGAAACTG?CTTTGGACTC?TTTAGTTGGC?CAAGCCCTTT
721 TTGGTGATGG?TTCTGCAGCT?GTAATTGTTG?GATCAGATCC?AGATCTCTCG?ATTGAACAAC
781 CACTCTTCCA?GCTAGTCTCG?GCAGCCCAAA?CATTCATCCC?CAATACCCAA?GGTGCTATTG
841 CAGGCAACTT?ACGTGAAGTG?GGTCTCACCT?TTCATTTATG?GCCTAATGTG?CCAACTTTGA
901 TCTCCGAAAA?TATAGAGAAA?TGCTTAACTC?AAGCTTTTGA?CCCAATTGGA?ATCAGCGATT
961 GGAATTCCTT?ATTTTGGATT?GCTCATCCAG?GTGGCCCAGC?TATTCTTGAT?GCAGTTGAAG
1021 CAAAATTGAG?TTTGGATAAA?CAAAAACTTA?AAGCAACAAG?ACATGTTCTA?AGTGAATATG
1081 GGAACATGTC?AAGGGCTTGT?GTCTTGTTTA?TTATGGACGA?GATGAGAAAG?AAATCGTTGA
1141 AGGAAGAAAA?AACAACAACA?GGTGAAGGAT?TGGATTGGGG?CGTCTTGTTT?GGCTTTGGAC
1201 CAGGCCTAAC?CATCGAGACT?GTTGTCCTCC?ACAGTATTCC?TAGGGATTCC?AATTGAGTGA
1261 AAAAAAAAAA?AAAAAAAAAA?AAAAAAAA
Chinese wild vitis species East China grape (Vitis pseudoreticulata) STS2 full length gene sequence
1 AACCCAGCTC?CAAGAACGCT?TCTCTTTCCT?TCCTCAACTT?AATCTTAAGC?TTTCATTTCA
61 GTACGTAGCT?GGCATCAATG?GCTTCAGTTG?AGGAAATTAG?AAACGCTCAA?CGTGCCAAGG
121 GTCCGGCCAC?CATCCTAGCC?ATTGGCACAG?CTACTCCCGA?CCACTGTGTC?TACCAGTCTG
181 ATTATGCTGA?TTACTATTTC?AGGGTCACTA?AGAGCGAGCA?CATGACTGAG?TTGAAGAAGA
241 AGTTCAATCG?CATATGTGAC?AAATCAATGA?TAAAAAAGCG?TTACATTCAT?TTGACTGAAG
301 AAATGCTTGA?AGAACATCCA?AACATTGGTG?CTTATATGGC?TCCATCTCTT?AACATACGCC
361 AAGAGATTAT?CACAGCTGAG?GTACCTAAGC?TTGGTAAGGA?AGCAGCATTG?AAGGCACTTA
421 AAGAGTGGGG?CCAGCCAAAG?TCCAAGATCA?CCCACCTTGT?ATTTTGTACA?ACCTCTGGTG
481 TAGAAATGCC?TGGTGCTGAT?TATAAACTTG?CTAATCTCTT?GGGTCTTGAA?ACTTCAGTTA
541 GAAGAGTTAT?GTTGTACCAT?CAAGGGTGCT?ATGCAGGTGG?AACTGTCCTT?CGAACCGCTA
601 AGGATCTTGC?AGAGAATAAT?GCAGGAGCAC?GAGTTCTTGT?GGTGTGCTCT?GAGATCACTG
661 TTGTTACATT?TCGTGGTCCT?TCTGAAGATG?CTTTGGACTC?TTTAGTTGGC?CAAGCCCTTT
721 TTGGTGATGG?GTCTGCAGCT?GTAATCGTTG?GATCTGATCC?AGATATCTCG?ATTGAACGAC
781 CACTCTTTCA?ACTTGTTTCA?GCAGCCCAAA?CATTTATTCC?TAATTCAGCA?GGTGCTATTG
841 CAGGCAACTT?ACGTGAAGTG?GGTCTCACCT?TTCATTTGTG?GCCTAATGTG?CCTACCTTGA
901 TCTCCGAAAA?CATTGAGAAT?TGTTTGACTA?AGGCTTTTGA?CCCAATTGGT?ATTAGTGATT
961 GGAATTCCTT?ATTCTGGATT?GCTCATCCAG?GTGGCCCAGC?TATTCTCGAC?GCAGTTGAAG
1021 CAAAAGTCGG?TTTAGATAAA?CAGAAACTCA?AAGCAACAAG?GCATATTCTA?AGTGAATATG
1081 GGAACATGTC?AAGTGCATGT?GTCTTATTTA?TTTTGGACGA?GATGAGAAAG?AAATCGCTCA
1141 AGGAAGGCAA?AACGACAACA?GGTGAAGGAT?TGGATTGGGG?TGTCTTGTTT?GGCTTTGGGC
1201 CAGGCCTAAC?CATTGAGACC?GTTGTGCTCC?ATAGCGTTGG?TACAGATTCA?AACTAGGTGA
1261 AATGATGGGA?AAAGTTATTC?ATGAGTCATG?TTTTATTAAT?CAAATAAAAG?GTAGTGAAAA
1321 AAAAAAAAAA?AAAAAAAAAA?AAA
Chinese wild vitis species East China grape (Vitis pseudoreticulata) STS3 full length gene sequence
1 AACCCAGCTC?CAAGAACGCT?TCTCTTTCCT?TCCTCAACTT?AATCTTAAGC?TTTCATTTCA
61 GTACGTAGCT?GGCATCAATG?GCTTCAGTTG?AGGAAATTAG?AAACGCTCAA?CGTGCCAAGG
121 GTCCGGCCAC?CATCCTAGCC?ATTGGCACAG?CTACTCCCGA?CCACTGTGTC?TACCAGTCTG
181 ATTATGCTGA?TTACTATTTC?AGGGTCACTA?AGAGCGAGCA?CATGACTGAG?TTGAAGAAGA
241 AGTTCAATCG?CATATGTGAC?AAATCAATGA?TAAAAAAGCG?TTACATTCAT?TTGACTGAAG
301 AAATGCTTGA?AGAACATCCA?AACATTGGTG?CTTATATGGC?TCCATCTCTT?AACATACGCC
361 AAGAGATTAT?CACAGCTGAG?GTACCTAAGC?TTGGTAAGGA?AGCAGCATTG?AAGGCACTTA
421 AAGAGTGGGG?CCAGCCAAAG?TCCAAGATCA?CCCACCTTGT?ATTTTGTACA?ACCTCTGGTG
481 TAGAAATGCC?TGGTGCTGAT?TATAAACTTG?CTAATCTCTT?GGGTCTTGAA?ACTTCAGTTA
541 GAAGAGTTAT?GTTGTACCAT?CAAGGGTGCT?ATGCAGGTGG?AACTGTCCTT?CGAACCGCTA
601 AGGATCTTGC?AGAGAATAAT?GCAGGAGCAC?GAGTTCTTGT?GGTGTGCTCT?GAGATCACTG
661 TTGTTACATT?TCGAGGACCT?TCCGAAGATG?CTTTGGATTC?TTTAGTTGGT?CAAGCTCTTT
721 TTGGTGATGG?GTCTGCAGCT?GTGATTGTTG?GATCAGATCC?AGATGTCTCA?ATTGAAAGAC
781 CCCTCTTCCA?GCTCGTCTCA?GCAGCCCAAA?CGTTTATTCC?TAATTCAGCA?GGTGCCATTG
841 CGGGTAACTT?ACGTGAGGTG?GGACTCACTT?TTCACTTGTG?GCCTAATGTG?CCTACATTGA
901 TTTCCGAGAA?TATAGAGAAA?TACTTGACTC?AAGCTTTTGA?TCCACTTGGT?ATTAGCGATT
961 GGAACTCGTT?ATTTTGGATT?GCTCACCCTG?GTGGCCCTGC?AATTCTTGAT?GCAGTTGAAG
1021 CAAAACTCAA?TTTAGATAAA?AAGAAACTTG?AAGCAACGAG?GCATGTGCTA?AGTGAGTATG
1081 GAAACATGTC?AAGTGCATGT?GTATTGTTTA?TTTTGGATGA?GATGAGGAAG?AAATCCCTTA
1141 AGGGGGAAAA?GGCCACCACA?GGTGAAGGAT?TGGATTGGGG?AGTATTATTT?GGTTTTGGGC
1201 CGGGCTTAAC?CATAGAGACT?GTTGTGTTGC?ATAGCATTCC?TATGGTTTCC?AATTGAGTGC
1261 AAAAGAGTAA?GAAAAATGAC?AAATGATCCC?TATCTTATTG?AATTAAGGAG?GTGTTAATAA
1321 AGATATATAC?ATATATCTAC?AAAGTTAATA?ATACTCCTAA?ATTTTTTTAT?CCCTATCATA
1381 AAAAAAAAAA?AAAAAAAAAA?AAAAAAAAAA?A
Chinese wild vitis species East China grape (Vitis pseudoreticulata) STS4 full length gene sequence
1 AACCCAGCTC?CAAGAACGCT?TCTCTTTCCT?TCCTCAACTT?AATCTTAAGC?TTTCATTTCA
61 GTACGTAGCT?GGCATCAATG?GCTTCAGTTG?AGGAAATTAG?AAACGCTCAA?CGTGCCAAGG
121 GTCCGGCCAC?CATCCTAGCC?ATTGGCACAG?CTACTCCCGA?CCACTGTGTC?TACCAGTCTG
181 ATTATGCTGA?TTACTATTTC?AGGGTCACTA?AGAGCGAGCA?CATGACTGAG?TTGAAGAAGA
241 AGTTCAATCG?CATATGTGAC?AAATCAATGA?TAAAAAAGCG?TTACATTCAT?TTGACTGAAG
301 AAATGCTTGA?AGAACATCCA?AACATTGGTG?CTTATATGGC?TCCATCTCTT?AACATACGCC
361 AAGAGATTAT?CACAGCTGAG?GTACCTAAGC?TTGGTAAGGA?AGCAGCATTG?AAGGCACTTA
421 AAGAGTGGGG?CCAGCCAAAG?TCCAAGATCA?CCCACCTTGT?ATTTTGTACA?ACCTCTGGTG
481 TAGAAATGCC?TGGTGCTGAT?TATAAACTTG?CTAATCTCTT?GGGTCTTGAA?ACTTCAGTTA
541 GAAGAGTTAT?GTTGTACCAT?CAAGGGTGCT?ATGCAGGTGG?AACTGTCCTT?CGAACCGCTA
601 AGGATCTTGC?AGAGAATAAT?GCAGGAGCAC?GAGTTCTTGT?GGTGTGCTCT?GAGATCACTG
661 TTGTTACATT?TCGTGGTCCT?TCCGAAGATG?CTTTGGACTC?TTTAGTTGGC?CAAGCCCTTT
721 TTGGTGATGG?GTCTGCAGCT?GTAATCGTTG?GATCTGATCC?AGATATCTCG?ATTGAACGAC
781 CACTCTTTCA?ACTTGTTTCA?GCAGCCCAAA?CATTTATTCC?TAATTCAGCA?GGTGCTATTG
841 CAGGCAACTT?ACGTGAAGTG?GGTCTCACCT?TTCATTTGTG?GCCTAATGTG?CCTACCTTGA
901 TCTCCGAAAA?CATTGAGAAT?TGTTTGACTA?AGGCTTTTGA?CCCAATTGGT?ATTAGTGATT
961 GGAATTCCTT?ATTCTGGATT?GCTCATCCAG?GTGGCCCAGC?TATTCTCGAC?GCAGTTGAAG
1021 CAAAAGTCGG?TTTAGATAAA?CAGAAACTCA?AAGCAACAAG?GCATATTCTA?AGTGAATATG
1081 GGAACATGTC?AAGTGCATGT?GTCTTATTTA?TTTTGGACGA?GATGAGAAAG?AAATCGCTCA
1141 AGGAAGGCAA?AACGACGACA?GGTGAAGGAT?TGGATTGGGG?TGTCTTGTTT?GGCTTTGGGC
1201 CAGGCCTAAC?CATTGAGACC?GTTGTGCTCC?ATAGCGTTGG?TACAGATTCA?AACTAAGTGA
1261 AATGATGGGA?AAAGTTATTC?ATGAGTCATG?TTTTATTAAT?CAAATAAAAG?GTAGTAAAGA
1321 TAATGAATTG?TTATTTTACG?ATTGTTGGAG?GACCTCCTCA?AAGACCTCAA?GTTAAAGTCA
1381 TTGTTTATTC?TTGTGTATGT?TATCAAAATG?AAGGAATAAT?ATATCCGAGT?TTTTGTTGAA
1441 AAAAAAAAAA?AAAAAAAAAA?AAAAAAAA
Chinese wild vitis species East China grape (Vitis pseudoreticulata) STS5 full length gene sequence
1 AACCCAGCTC?CAAGAACGCT?TCTCTTTCCT?TCCTCAACTT?AATCTTAAGC?TTTCATTTCA
61 GTACGTAGCT?GGCATCAATG?GCTTCAGTTG?AGGAAATTAG?AAACGCTCAA?CGTGCCAAGG
121 GTCCGGCCAC?CATCCTAGCC?ATTGGCACAG?CTACTCCCGA?CCACTGTGTC?TACCAGTCTG
181 ATTATGCTGA?TTACTATTTC?AGGGTCACTA?AGAGCGAGCA?CATGACTGAG?TTGAAGAAGA
241 AGTTCAATCG?CATATGTGAC?AAATCAATGA?TAAAAAAGCG?TTACATTCAT?TTGACTGAAG
301 AAATGCTTGA?AGAACATCCA?AACATTGGTG?CTTATATGGC?TCCATCTCTT?AACATACGCC
361 AAGAGATTAT?CACAGCTGAG?GTACCTAAGC?TTGGTAAGGA?AGCAGCATTG?AAGGCACTTA
421 AAGAGTGGGG?CCAGCCAAAG?TCCAAGATCA?CCCACCTTGT?ATTTTGTACA?ACCTCTGGTG
481 TAGAAATGCC?TGGTGCTGAT?TATAAACTTG?CTAATCTCTT?GGGTCTTGAA?ACTTCAGTTA
541 GAAGAGTTAT?GTTGTACCAT?CAAGGGTGCT?ATGCAGGTGG?AACTGTCCTT?CGAACCGCTA
601 AGGATCTTGC?AGAGAATAAT?GCAGGAGCAC?GAGTTCTTGT?GGTGTGCTCT?GAGATCACTG
661 TTGTTACATT?CCGAGGACCT?TCCGAAGATG?CTTTGGATTC?TTTAGTTGGT?CAAGCCCTTT
721 TTGGCGATGG?GTCTGCAGCT?GTGATTGTTG?GATCAGATCC?AGATGTCTCG?ATTGAACGGC
781 CTCTTTTCCA?ACTAGTTTCA?GCAGCCCAAA?CGTTTATTCC?TAATTCAGCA?GGTGCCATTG
841 CGGGTAACTT?ACGTGAGGTG?GGACTCACCT?TTCACTTGTG?GCCTAATGTG?CCTACTTTGA
901 TTTCCGAGAA?CATAGAGAAA?TGCTTGACTC?AAGCTTTTGA?TCCACTTGGT?ATTAGCGATT
961 GGAACTCGTT?ATTTTGGATT?GCTCATCCAG?GTGGCCCTGC?AATTCTTGAT?GCAGTTGAAG
1021 CAAAACTCAA?TTTAGATAAA?AAGAAACTTG?AAGCAACAAG?ACATGTGTTG?AGTGAGTATG
1081 GTAACATGTC?AAGTGCATGT?GTGTTGTTTA?TTTTGGATGA?GATGAGGAGG?AAATCATTGA
1141 AGGGGGAAAA?TGGCACCACA?GGTGAAGGAT?TGGATTGGGG?AGTATTGTTC?GGTTTTGGAC
1201 CAGGCTTGAC?CATCGAGACC?GTTGTGCTGC?ATAGCGTACC?TATGATTACA?AATTGAGTGA
1261 AGAATGATAA?GAAAAGTTAT?ATACAAGCCA?TGTCTTATTG?TATTAAGGAG?GTGTTAATGA
1321 AGATATATAT?ATATCTCCAA?AGCTTGTAAT?AATCTTACAA?TAATTTATTC?CTATCATAAA
1381 ATTGACGGAT?TGTAATTTAG?TGATCATTGG?AGATTGTAGA?GACCTCAAGT?TAAAAAAGTG
1441 AGACTTCAAG?TTCTTGTCTT?AAAAAAAAAA?AAAAAAAAAA?AAAAAAAAAA?AA
Chinese wild vitis species East China grape (Vitis pseudoreticulata) STS6 full length gene sequence
1 AACCCAGCTC?CAAGAACGCT?TCTCTTTCCT?TCCTCAACTT?AATCTTAAGC?TTTCATTTCA
61 GTACGTAGCT?GGCATCAATG?GCTTCAGTTG?AGGAAATTAG?AAACGCTCAA?CGTGCCAAGG
121 GTCCGGCCAC?CATCCTAGCC?ATTGGCACAG?CTACTCCCGA?CCACTGTGTC?TACCAGTCTG
181 ATTATGCTGA?TTACTATTTC?AGGGTCACTA?AGAGCGAGCA?CATGACTGAG?TTGAAGAAGA
241 AGTTCAATCG?CATATGTGAC?AAATCAATGA?TAAAAAAGCG?TTACATTCAT?TTGACTGAAG
301 AAATGCTTGA?AGAACATCCA?AACATTGGTG?CTTATATGGC?TCCATCTCTT?AACATACGCC
361 AAGAGATTAT?CACAGCTGAG?GTACCTAAGC?TTGGTAAGGA?AGCAGCATTG?AAGGCACTTA
421 AAGAGTGGGG?CCAGCCAAAG?TCCAAGATCA?CCCACCTTGT?ATTTTGTACA?ACCTCTGGTG
481 TAGAAATGCC?TGGTGCTGAT?TATAAACTTG?CTAATCTCTT?GGGTCTTGAA?ACTTCAGTTA
541 GAAGAGTTAT?GTTGTACCAT?CAAGGGTGCT?ATGCAGGTGG?AACTGTCCTT?CGAACCGCTA
601 AGGATCTTGC?AGAGAATAAT?GTAGGAGCAC?GAGTTCTTGT?GGTGTGCTCT?GAGATCACTG
661 TTGTTACATT?TCGTGGTCCT?TCCGAAGATG?CTTTGGACTC?TTTAGTTGGC?CAAGCCCTTT
721 TTGGTGATGG?GTCTGCAGCT?GTAATCGTTG?GATCTGATCC?AGATATCTCG?ATTGAACGAC
781 CACTCTTTCA?ACTTGTTTCA?GCAGCCCAAA?CATTTATTCC?TAATTCAGCA?GGTGCTATTG
841 CAGGCAACTT?ACATGAAGTG?GGTCTCACCT?TTCATTTGTG?GCCTAATGTG?CCTACCTTGA
901 TCTCCGAAAA?CATTGAGAAT?TGTTTGACTA?AGGCTTTTGA?CCCAATTGGT?ATTAGTGATT
961 GGAATTCCTT?ATTCTGGATT?GCTCATCCAG?GTGGCCCAGC?TATTCTCGAC?GCAGTTGAAG
1021 CAAAAGTCGG?TTTAGATAAA?CGGAAACTCA?AAGCAACAAG?GCATATTCTA?AGTGAATATG
1081 GGAACATGTC?AAGTGCATGT?GTCTTGTTTA?TTTTGGACGA?GATGAGAAAG?AAATCGCTCA
1141 AGGAAGGAAA?GACAACCACA?GGTGAAGGAT?TGGATTGGGG?TGTTTTGTTT?GGCTTTGGGC
1201 CAGGCTTGAC?CATTGAGACC?GTTGTGCTAC?ATAGCGTTCA?AATGGATTCA?AACTAAGTAA
1261 AATGATAGGA?AAAACGATTC?ACGAGCCATG?TTCTATTAAC?CAAATATAGG?TAGTAAAGAT
1321 ATATCACCAT?GAAATCATCT?TTACTCAGAA?TTTATTATTT?GTTATTTATC?GTTGTTGGAG
1381 GACTTTTTAA?GAGCCCTCAA?GTTAAAATCA?TTGTTTATCC?TTGTGTATGT?TATCAAAATG
1441 AAAGAAATAA?TGGATTTCTA?TTTTGTTTAA?AAAAAAAAGA?AAAAAAAAAA?AAAAAAAAAA
1501 AAAAAA
Chinese wild vitis species East China grape (Vitis pseudoreticulata) STS7 full length gene sequence
1 AACCCAGCTC?CAAGAACGCT?TCTCTTTCCT?TCCTCAACTT?AATCTTAAGC?TTTCATTTCA
61 GTACGTAGCT?GGCATCAATG?GCTTCAGTTG?AGGAAATTAG?AAACGCTCAA?CGTGCCAAGG
121 GTCCGGCCAC?CATCCTAGCC?ATTGGCACAG?CTACTCCCGA?CCACTGTGTC?TACCAGTCTG
181 ATTATGCTGA?TTACTATTTC?AGGGTCACTA?AGAGCGAGCA?CATGACTGAG?TTGAAGAAGA
241 AGTTCAATCG?CATATGTGAC?AAATCAATGA?TAAAAAAGCG?TTACATTCAT?TTGACTGAAG
301 AAATGCTTGA?AGAACATCCA?AACATTGGTG?CTTATATGGC?TCCATCTCTT?AACATACGCC
361 AAGAGATTAT?CACAGCTGAG?GTACCTAAGC?TTGGTAAGGA?AGCAGCATTG?AAGGCACTTA
421 AAGAGTGGGG?CCAGCCAAAG?TCCAAGATCA?CCCACCTTGT?ATTTTGTACA?ACCTCTGGTG
481 TAGAAATGCC?TGGTGCTGAT?TATAAACTTG?CTAATCTCTT?GGGTCTTGAA?ACTTCAGTTA
541 GAAGAGTTAT?GTTGTACCAT?CAAGGGTGCT?ATGCAGGTGG?AACTGTCCTT?CGAACCGCTA
601 AGGATCTTGC?AGAGAATAAT?GCAGGAGCAC?GAGTTCTTGT?GGTGTGCTCT?GAGATCACTG
661 TTGTTACATT?TCGCGGCCCT?TCCGAAGATG?CTTTGGACTC?TTTAGTTGGC?CAAGCCCTTT
721 TTGGTGATGG?GTCTGCAGCT?GTAATCGTAG?GATCAGATCC?GGATATCTCA?ATTGAACGAC
781 CACTCTTCCA?GCTTGTCTCA?GCAGCCCAAA?CATTTATTCC?TAATTCTGCA?GGTGCCATTG
841 CAGGAAACTT?ACGTGAGGTG?GGACTCACCT?TTCATTTGTG?GCCCAATGTG?CCCACTTTAA
901 TTTCTGAGAA?CATAGAGAAA?TGTTTGACTC?AGGCTTTTGA?CCCACTTGGT?ATTAGCGATT
961 GGAACTCGTT?ATTTTGGATT?GCTCACCCAG?GTGGCCCTGC?AATTCTTGAT?GCAGTTGAAG
1021 CAAAACTCAA?GTTAGATAAA?AAGAAACTCG?AAGCAACGAG?GCATGTGCTA?AGTGAGTATG
1081 GAAACATGTC?AAGTGCATGT?GTGTTGTTTA?TTTTGGATGA?GATGAGAAAG?AAATCCCTTA
1141 AGGGGGAGAG?GGCCACCACA?GGTGAAGGAT?TGGATTGGGG?AGTATTATTC?GGTTTTGGAC
1201 CAGGCTTGAC?TATTGAAACT?GTTGTGTTGC?ATAGCATTCC?TATGGTTACA?AATTAAGTGA
1261 AGGAAAAGAG?AATGGTCCCT?TCAATGTCCT?ATTATGTTGA?ATAGGAGTAA?GGTATTTATC
1321 TCCGAAACTA?AATTATACTC?TTAAACTATT?TTATTATTTT?TTCTAAATTT?AGATTGTAAT
1381 CTAGTGATTG?TTAGGCCCTC?TTGGTGAGCT?CAAATTAAAC?GGTTGAGTTT?CAAGTTCAGA
1441 CTGTTTTATT?ATCTTGAAGA?TTCCCCAAAC?ATTGTAATGT?TGTGTTCATA?TGAACATTGT
1501 TGAAAAGTAA?ATAAAAGAAA?TATTGGAAAA?AAAAAAAAAA?AAAAAAAAAA?AAAAAA
Claims (11)
1. Chinese Portugal belongs to wild species East China grape stilbene synthase gene sequence, it is characterized in that, comprise that Chinese Portugal belongs to wild species East China grape stilbene synthase STS1 gene, STS2 gene, STS3 gene, STS4 gene, STS5 gene, STS6 gene, STS7 full length gene sequence.
2. gene order as claimed in claim 1 is characterized in that, the 1288bp full length sequence that Chinese Portugal belongs to wild species East China grape stilbene synthase STS1 gene is:
1 AACCCAGCTC?CAAGAACGCT?TCTCTTTCCT?TCCTCAACTT?AATCTTAAGC?TTTCATTTCA
61 GTACGTAGCT?GGCATCAATG?GCTTCAGTTG?AGGAAATTAG?AAACGCTCAA?CGTGCCAAGG
121 GTCCGGCCAC?CATCCTAGCC?ATTGGCACAG?CTACTCCCGA?CCACTGTGTC?TACCAGTCTG
181 ATTATGCTGA?TTACTATTTC?AGGGTCACTA?AGAGCGAGCA?CATGACTGAG?TTGAAGAAGA
241 AGTTCAATCG?CATATGTGAC?AAATCAATGA?TAAAAAAGCG?TTACATTCAT?TTGACTGAAG
301 AAATGCTTGA?AGAACATCCA?AACATTGGTG?CTTATATGGC?TCCATCTCTT?AACATACGCC
361 AAGAGATTAT?CACAGCTGAG?GTACCTAAGC?TTGGTAAGGA?AGCAGCATTG?AAGGCACTTA
421 AAGAGTGGGG?CCAGCCAAAG?TCCAAGATCA?CCCACCTTGT?ATTTTGTACA?ACCTCTGGTG
481 TAGAAATGCC?TGGTGCTGAT?TATAAACTTG?CTAATCTCTT?GGGTCTTGAA?ACTTCAGTTA
541 GAAGAGTTAT?GTTGTACCAT?CAAGGGTGCT?ATGCAGGTGG?AACTGTCCTT?CGAACCGCTA
601 AGGATCTTGC?TGAGAATAAT?GCAGGAGCAC?GGGTTCTCGT?GGTGTGCTCT?GAGATCACCG
661 TTGTTACATT?CTGTGGGCCT?TCTGAAACTG?CTTTGGACTC?TTTAGTTGGC?CAAGCCCTTT
721 TTGGTGATGG?TTCTGCAGCT?GTAATTGTTG?GATCAGATCC?AGATCTCTCG?ATTGAACAAC
781 CACTCTTCCA?GCTAGTCTCG?GCAGCCCAAA?CATTCATCCC?CAATACCCAA?GGTGCTATTG
841 CAGGCAACTT?ACGTGAAGTG?GGTCTCACCT?TTCATTTATG?GCCTAATGTG?CCAACTTTGA
901 TCTCCGAAAA?TATAGAGAAA?TGCTTAACTC?AAGCTTTTGA?CCCAATTGGA?ATCAGCGATT
961 GGAATTCCTT?ATTTTGGATT?GCTCATCCAG?GTGGCCCAGC?TATTCTTGAT?GCAGTTGAAG
1021?CAAAATTGAG?TTTGGATAAA?CAAAAACTTA?AAGCAACAAG?ACATGTTCTA?AGTGAATATG
1081?GGAACATGTC?AAGGGCTTGT?GTCTTGTTTA?TTATGGACGA?GATGAGAAAG?AAATCGTTGA
1141?AGGAAGAAAA?AACAACAACA?GGTGAAGGAT?TGGATTGGGG?CGTCTTGTTT?GGCTTTGGAC
1201?CAGGCCTAAC?CATCGAGACT?GTTGTCCTCC?ACAGTATTCC?TAGGGATTCC?AATTGAGTGA
1261?AAAAAAAAAA?AAAAAAAAAA?AAAAAAAA。
3. gene order as claimed in claim 1 is characterized in that, the full length sequence that Chinese Portugal belongs to wild species East China grape stilbene synthase STS2 gene 1343bp is:
1 AACCCAGCTC?CAAGAACGCT?TCTCTTTCCT?TCCTCAACTT?AATCTTAAGC?TTTCATTTCA
61 GTACGTAGCT?GGCATCAATG?GCTTCAGTTG?AGGAAATTAG?AAACGCTCAA?CGTGCCAAGG
121?GTCCGGCCAC?CATCCTAGCC?ATTGGCACAG?CTACTCCCGA?CCACTGTGTC?TACCAGTCTG
181?ATTATGCTGA?TTACTATTTC?AGGGTCACTA?AGAGCGAGCA?CATGACTGAG?TTGAAGAAGA
241?AGTTCAATCG?CATATGTGAC?AAATCAATGA?TAAAAAAGCG?TTACATTCAT?TTGACTGAAG
301?AAATGCTTGA?AGAACATCCA?AACATTGGTG?CTTATATGGC?TCCATCTCTT?AACATACGCC
361?AAGAGATTAT?CACAGCTGAG?GTACCTAAGC?TTGGTAAGGA?AGCAGCATTG?AAGGCACTTA
421?AAGAGTGGGG?CCAGCCAAAG?TCCAAGATCA?CCCACCTTGT?ATTTTGTACA?ACCTCTGGTG
481?TAGAAATGCC?TGGTGCTGAT?TATAAACTTG?CTAATCTCTT?GGGTCTTGAA?ACTTCAGTTA
541 GAAGAGTTAT?GTTGTACCAT?CAAGGGTGCT?ATGCAGGTGG?AACTGTCCTT?CGAACCGCTA
601 AGGATCTTGC?AGAGAATAAT?GCAGGAGCAC?GAGTTCTTGT?GGTGTGCTCT?GAGATCACTG
661 TTGTTACATT?TCGTGGTCCT?TCTGAAGATG?CTTTGGACTC?TTTAGTTGGC?CAAGCCCTTT
721 TTGGTGATGG?GTCTGCAGCT?GTAATCGTTG?GATCTGATCC?AGATATCTCG?ATTGAACGAC
781 CACTCTTTCA?ACTTGTTTCA?GCAGCCCAAA?CATTTATTCC?TAATTCAGCA?GGTGCTATTG
841 CAGGCAACTT?ACGTGAAGTG?GGTCTCACCT?TTCATTTGTG?GCCTAATGTG?CCTACCTTGA
901 TCTCCGAAAA?CATTGAGAAT?TGTTTGACTA?AGGCTTTTGA?CCCAATTGGT?ATTAGTGATT
961 GGAATTCCTT?ATTCTGGATT?GCTCATCCAG?GTGGCCCAGC?TATTCTCGAC?GCAGTTGAAG
1021?CAAAAGTCGG?TTTAGATAAA?CAGAAACTCA?AAGCAACAAG?GCATATTCTA?AGTGAATATG
1081?GGAACATGTC?AAGTGCATGT?GTCTTATTTA?TTTTGGACGA?GATGAGAAAG?AAATCGCTCA
1141?AGGAAGGCAA?AACGACAACA?GGTGAAGGAT?TGGATTGGGG?TGTCTTGTTT?GGCTTTGGGC
1201?CAGGCCTAAC?CATTGAGACC?GTTGTGCTCC?ATAGCGTTGG?TACAGATTCA?AACTAGGTGA
1261?AATGATGGGA?AAAGTTATTC?ATGAGTCATG?TTTTATTAAT?CAAATAAAAG?GTAGTGAAAA
1321?AAAAAAAAAA?AAAAAAAAAA?AAA。
4. gene order as claimed in claim 1 is characterized in that, the full length sequence that Chinese Portugal belongs to wild species East China grape stilbene synthase STS3 gene 1411bp is:
1 AACCCAGCTC?CAAGAACGCT?TCTCTTTCCT?TCCTCAACTT?AATCTTAAGC?TTTCATTTCA
61 GTACGTAGCT?GGCATCAATG?GCTTCAGTTG?AGGAAATTAG?AAACGCTCAA?CGTGCCAAGG
121 GTCCGGCCAC?CATCCTAGCC?ATTGGCACAG?CTACTCCCGA?CCACTGTGTC?TACCAGTCTG
181 ATTATGCTGA?TTACTATTTC?AGGGTCACTA?AGAGCGAGCA?CATGACTGAG?TTGAAGAAGA
241 AGTTCAATCG?CATATGTGAC?AAATCAATGA?TAAAAAAGCG?TTACATTCAT?TTGACTGAAG
301 AAATGCTTGA?AGAACATCCA?AACATTGGTG?CTTATATGGC?TCCATCTCTT?AACATACGCC
361 AAGAGATTAT?CACAGCTGAG?GTACCTAAGC?TTGGTAAGGA?AGCAGCATTG?AAGGCACTTA
421 AAGAGTGGGG?CCAGCCAAAG?TCCAAGATCA?CCCACCTTGT?ATTTTGTACA?ACCTCTGGTG
481 TAGAAATGCC?TGGTGCTGAT?TATAAACTTG?CTAATCTCTT?GGGTCTTGAA?ACTTCAGTTA
541 GAAGAGTTAT?GTTGTACCAT?CAAGGGTGCT?ATGCAGGTGG?AACTGTCCTT?CGAACCGCTA
601 AGGATCTTGC?AGAGAATAAT?GCAGGAGCAC?GAGTTCTTGT?GGTGTGCTCT?GAGATCACTG
661 TTGTTACATT?TCGAGGACCT?TCCGAAGATG?CTTTGGATTC?TTTAGTTGGT?CAAGCTCTTT
721 TTGGTGATGG?GTCTGCAGCT?GTGATTGTTG?GATCAGATCC?AGATGTCTCA?ATTGAAAGAC
781 CCCTCTTCCA?GCTCGTCTCA?GCAGCCCAAA?CGTTTATTCC?TAATTCAGCA?GGTGCCATTG
841 CGGGTAACTT?ACGTGAGGTG?GGACTCACTT?TTCACTTGTG?GCCTAATGTG?CCTACATTGA
901 TTTCCGAGAA?TATAGAGAAA?TACTTGACTC?AAGCTTTTGA?TCCACTTGGT?ATTAGCGATT
961 GGAACTCGTT?ATTTTGGATT?GCTCACCCTG?GTGGCCCTGC?AATTCTTGAT?GCAGTTGAAG
1021?CAAAACTCAA?TTTAGATAAA?AAGAAACTTG?AAGCAACGAG?GCATGTGCTA?AGTGAGTATG
1081?GAAACATGTC?AAGTGCATGT?GTATTGTTTA?TTTTGGATGA?GATGAGGAAG?AAATCCCTTA
1141?AGGGGGAAAA?GGCCACCACA?GGTGAAGGAT?TGGATTGGGG?AGTATTATTT?GGTTTTGGGC
1201?CGGGCTTAAC?CATAGAGACT?GTTGTGTTGC?ATAGCATTCC?TATGGTTTCC?AATTGAGTGC
1261?AAAAGAGTAA?GAAAAATGAC?AAATGATCCC?TATCTTATTG?AATTAAGGAG?GTGTTAATAA
1321?AGATATATAC?ATATATCTAC?AAAGTTAATA?ATACTCCTAA?ATTTTTTTAT?CCCTATCATA
1381?AAAAAAAAAA?AAAAAAAAAA?AAAAAAAAAA?A。
5. gene order as claimed in claim 1 is characterized in that, the full length sequence that Chinese Portugal belongs to wild species East China grape stilbene synthase STS3 gene 1468bp is:
1 AACCCAGCTC?CAAGAACGCT?TCTCTTTCCT?TCCTCAACTT?AATCTTAAGC?TTTCATTTCA
61 GTACGTAGCT?GGCATCAATG?GCTTCAGTTG?AGGAAATTAG?AAACGCTCAA?CGTGCCAAGG
121 GTCCGGCCAC?CATCCTAGCC?ATTGGCACAG?CTACTCCCGA?CCACTGTGTC?TACCAGTCTG
181 ATTATGCTGA?TTACTATTTC?AGGGTCACTA?AGAGCGAGCA?CATGACTGAG?TTGAAGAAGA
241 AGTTCAATCG?CATATGTGAC?AAATCAATGA?TAAAAAAGCG?TTACATTCAT?TTGACTGAAG
301 AAATGCTTGA?AGAACATCCA?AACATTGGTG?CTTATATGGC?TCCATCTCTT?AACATACGCC
361 AAGAGATTAT?CACAGCTGAG?GTACCTAAGC?TTGGTAAGGA?AGCAGCATTG?AAGGCACTTA
421 AAGAGTGGGG?CCAGCCAAAG?TCCAAGATCA?CCCACCTTGT?ATTTTGTACA?ACCTCTGGTG
481 TAGAAATGCC?TGGTGCTGAT?TATAAACTTG?CTAATCTCTT?GGGTCTTGAA?ACTTCAGTTA
541 GAAGAGTTAT?GTTGTACCAT?CAAGGGTGCT?ATGCAGGTGG?AACTGTCCTT?CGAACCGCTA
601 AGGATCTTGC?AGAGAATAAT?GCAGGAGCAC?GAGTTCTTGT?GGTGTGCTCT?GAGATCACTG
661 TTGTTACATT?TCGTGGTCCT?TCCGAAGATG?CTTTGGACTC?TTTAGTTGGC?CAAGCCCTTT
721 TTGGTGATGG?GTCTGCAGCT?GTAATCGTTG?GATCTGATCC?AGATATCTCG?ATTGAACGAC
781 CACTCTTTCA?ACTTGTTTCA?GCAGCCCAAA?CATTTATTCC?TAATTCAGCA?GGTGCTATTG
841 CAGGCAACTT?ACGTGAAGTG?GGTCTCACCT?TTCATTTGTG?GCCTAATGTG?CCTACCTTGA
901 TCTCCGAAAA?CATTGAGAAT?TGTTTGACTA?AGGCTTTTGA?CCCAATTGGT?ATTAGTGATT
961 GGAATTCCTT?ATTCTGGATT?GCTCATCCAG?GTGGCCCAGC?TATTCTCGAC?GCAGTTGAAG
1021?CAAAAGTCGG?TTTAGATAAA?CAGAAACTCA?AAGCAACAAG?GCATATTCTA?AGTGAATATG
1081?GGAACATGTC?AAGTGCATGT?GTCTTATTTA?TTTTGGACGA?GATGAGAAAG?AAATCGCTCA
1141?AGGAAGGCAA?AACGACGACA?GGTGAAGGAT?TGGATTGGGG?TGTCTTGTTT?GGCTTTGGGC
1201?CAGGCCTAAC?CATTGAGACC?GTTGTGCTCC?ATAGCGTTGG?TACAGATTCA?AACTAAGTGA
1261?AATGATGGGA?AAAGTTATTC?ATGAGTCATG?TTTTATTAAT?CAAATAAAAG?GTAGTAAAGA
1321?TAATGAATTG?TTATTTTACG?ATTGTTGGAG?GACCTCCTCA?AAGACCTCAA?GTTAAAGTCA
1381?TTGTTTATTC?TTGTGTATGT?TATCAAAATG?AAGGAATAAT?ATATCCGAGT?TTTTGTTGAA
1441?AAAAAAAAAA?AAAAAAAAAA?AAAAAAAA。
6. gene order as claimed in claim 1 is characterized in that, the full length sequence that Chinese Portugal belongs to the stilbene synthase STS3 of Portugal, wild species East China gene 1492bp is:
1 AACCCAGCTC?CAAGAACGCT?TCTCTTTCCT?TCCTCAACTT?AATCTTAAGC?TTTCATTTCA
61 GTACGTAGCT?GGCATCAATG?GCTTCAGTTG?AGGAAATTAG?AAACGCTCAA?CGTGCCAAGG
121?GTCCGGCCAC?CATCCTAGCC?ATTGGCACAG?CTACTCCCGA?CCACTGTGTC?TACCAGTCTG
181?ATTATGCTGA?TTACTATTTC?AGGGTCACTA?AGAGCGAGCA?CATGACTGAG?TTGAAGAAGA
241?AGTTCAATCG?CATATGTGAC?AAATCAATGA?TAAAAAAGCG?TTACATTCAT?TTGACTGAAG
301?AAATGCTTGA?AGAACATCCA?AACATTGGTG?CTTATATGGC?TCCATCTCTT?AACATACGCC
361?AAGAGATTAT?CACAGCTGAG?GTACCTAAGC?TTGGTAAGGA?AGCAGCATTG?AAGGCACTTA
421?AAGAGTGGGG?CCAGCCAAAG?TCCAAGATCA?CCCACCTTGT?ATTTTGTACA?ACCTCTGGTG
481?TAGAAATGCC?TGGTGCTGAT?TATAAACTTG?CTAATCTCTT?GGGTCTTGAA?ACTTCAGTTA
541?GAAGAGTTAT?GTTGTACCAT?CAAGGGTGCT?ATGCAGGTGG?AACTGTCCTT?CGAACCGCTA
601?AGGATCTTGC?AGAGAATAAT?GCAGGAGCAC?GAGTTCTTGT?GGTGTGCTCT?GAGATCACTG
661?TTGTTACATT?CCGAGGACCT?TCCGAAGATG?CTTTGGATTC?TTTAGTTGGT?CAAGCCCTTT
721?TTGGCGATGG?GTCTGCAGCT?GTGATTGTTG?GATCAGATCC?AGATGTCTCG?ATTGAACGGC
781 CTCTTTTCCA?ACTAGTTTCA?GCAGCCCAAA?CGTTTATTCC?TAATTCAGCA?GGTGCCATTG
841 CGGGTAACTT?ACGTGAGGTG?GGACTCACCT?TTCACTTGTG?GCCTAATGTG?CCTACTTTGA
901 TTTCCGAGAA?CATAGAGAAA?TGCTTGACTC?AAGCTTTTGA?TCCACTTGGT?ATTAGCGATT
961 GGAACTCGTT?ATTTTGGATT?GCTCATCCAG?GTGGCCCTGC?AATTCTTGAT?GCAGTTGAAG
1021?CAAAACTCAA?TTTAGATAAA?AAGAAACTTG?AAGCAACAAG?ACATGTGTTG?AGTGAGTATG
1081?GTAACATGTC?AAGTGCATGT?GTGTTGTTTA?TTTTGGATGA?GATGAGGAGG?AAATCATTGA
1141?AGGGGGAAAA?TGGCACCACA?GGTGAAGGAT?TGGATTGGGG?AGTATTGTTC?GGTTTTGGAC
1201?CAGGCTTGAC?CATCGAGACC?GTTGTGCTGC?ATAGCGTACC?TATGATTACA?AATTGAGTGA
1261?AGAATGATAA?GAAAAGTTAT?ATACAAGCCA?TGTCTTATTG?TATTAAGGAG?GTGTTAATGA
1321?AGATATATAT?ATATCTCCAA?AGCTTGTAAT?AATCTTACAA?TAATTTATTC?CTATCATAAA
1381?ATTGACGGAT?TGTAATTTAG?TGATCATTGG?AGATTGTAGA?GACCTCAAGT?TAAAAAAGTG
1441?AGACTTCAAG?TTCTTGTCTT?AAAAAAAAAA?AAAAAAAAAA?AAAAAAAAAA?AA。
7. gene order as claimed in claim 1 is characterized in that, the full length sequence that Chinese Portugal belongs to wild species East China grape stilbene synthase STS3 gene 1506bp is:
1 AACCCAGCTC?CAAGAACGCT?TCTCTTTCCT?TCCTCAACTT?AATCTTAAGC?TTTCATTTCA
61 GTACGTAGCT?GGCATCAATG?GCTTCAGTTG?AGGAAATTAG?AAACGCTCAA?CGTGCCAAGG
121 GTCCGGCCAC?CATCCTAGCC?ATTGGCACAG?CTACTCCCGA?CCACTGTGTC?TACCAGTCTG
181 ATTATGCTGA?TTACTATTTC?AGGGTCACTA?AGAGCGAGCA?CATGACTGAG?TTGAAGAAGA
241 AGTTCAATCG?CATATGTGAC?AAATCAATGA?TAAAAAAGCG?TTACATTCAT?TTGACTGAAG
301 AAATGCTTGA?AGAACATCCA?AACATTGGTG?CTTATATGGC?TCCATCTCTT?AACATACGCC
361 AAGAGATTAT?CACAGCTGAG?GTACCTAAGC?TTGGTAAGGA?AGCAGCATTG?AAGGCACTTA
421 AAGAGTGGGG?CCAGCCAAAG?TCCAAGATCA?CCCACCTTGT?ATTTTGTACA?ACCTCTGGTG
481 TAGAAATGCC?TGGTGCTGAT?TATAAACTTG?CTAATCTCTT?GGGTCTTGAA?ACTTCAGTTA
541 GAAGAGTTAT?GTTGTACCAT?CAAGGGTGCT?ATGCAGGTGG?AACTGTCCTT?CGAACCGCTA
601 AGGATCTTGC?AGAGAATAAT?GTAGGAGCAC?GAGTTCTTGT?GGTGTGCTCT?GAGATCACTG
661 TTGTTACATT?TCGTGGTCCT?TCCGAAGATG?CTTTGGACTC?TTTAGTTGGC?CAAGCCCTTT
721 TTGGTGATGG?GTCTGCAGCT?GTAATCGTTG?GATCTGATCC?AGATATCTCG?ATTGAACGAC
781 CACTCTTTCA?ACTTGTTTCA?GCAGCCCAAA?CATTTATTCC?TAATTCAGCA?GGTGCTATTG
841 CAGGCAACTT?ACATGAAGTG?GGTCTCACCT?TTCATTTGTG?GCCTAATGTG?CCTACCTTGA
901 TCTCCGAAAA?CATTGAGAAT?TGTTTGACTA?AGGCTTTTGA?CCCAATTGGT?ATTAGTGATT
961 GGAATTCCTT?ATTCTGGATT?GCTCATCCAG?GTGGCCCAGC?TATTCTCGAC?GCAGTTGAAG
1021?CAAAAGTCGG?TTTAGATAAA?CGGAAACTCA?AAGCAACAAG?GCATATTCTA?AGTGAATATG
1081?GGAACATGTC?AAGTGCATGT?GTCTTGTTTA?TTTTGGACGA?GATGAGAAAG?AAATCGCTCA
1141?AGGAAGGAAA?GACAACCACA?GGTGAAGGAT?TGGATTGGGG?TGTTTTGTTT?GGCTTTGGGC
1201?CAGGCTTGAC?CATTGAGACC?GTTGTGCTAC?ATAGCGTTCA?AATGGATTCA?AACTAAGTAA
1261?AATGATAGGA?AAAACGATTC?ACGAGCCATG?TTCTATTAAC?CAAATATAGG?TAGTAAAGAT
1321?ATATCACCAT?GAAATCATCT?TTACTCAGAA?TTTATTATTT?GTTATTTATC?GTTGTTGGAG
1381?GACTTTTTAA?GAGCCCTCAA?GTTAAAATCA?TTGTTTATCC?TTGTGTATGT?TATCAAAATG
1441?AAAGAAATAA?TGGATTTCTA?TTTTGTTTAA?AAAAAAAAGA?AAAAAAAAAA?AAAAAAAAAA
1501?AAAAAA。
8. gene order as claimed in claim 1 is characterized in that, the full length sequence that Chinese Portugal belongs to wild species East China grape stilbene synthase STS3 gene 1556bp is:
1 AACCCAGCTC?CAAGAACGCT?TCTCTTTCCT?TCCTCAACTT?AATCTTAAGC?TTTCATTTCA
61 GTACGTAGCT?GGCATCAATG?GCTTCAGTTG?AGGAAATTAG?AAACGCTCAA?CGTGCCAAGG
121 GTCCGGCCAC?CATCCTAGCC?ATTGGCACAG?CTACTCCCGA?CCACTGTGTC?TACCAGTCTG
181 ATTATGCTGA?TTACTATTTC?AGGGTCACTA?AGAGCGAGCA?CATGACTGAG?TTGAAGAAGA
241 AGTTCAATCG?CATATGTGAC?AAATCAATGA?TAAAAAAGCG?TTACATTCAT?TTGACTGAAG
301 AAATGCTTGA?AGAACATCCA?AACATTGGTG?CTTATATGGC?TCCATCTCTT?AACATACGCC
361 AAGAGATTAT?CACAGCTGAG?GTACCTAAGC?TTGGTAAGGA?AGCAGCATTG?AAGGCACTTA
421 AAGAGTGGGG?CCAGCCAAAG?TCCAAGATCA?CCCACCTTGT?ATTTTGTACA?ACCTCTGGTG
481 TAGAAATGCC?TGGTGCTGAT?TATAAACTTG?CTAATCTCTT?GGGTCTTGAA?ACTTCAGTTA
541 GAAGAGTTAT?GTTGTACCAT?CAAGGGTGCT?ATGCAGGTGG?AACTGTCCTT?CGAACCGCTA
601 AGGATCTTGC?AGAGAATAAT?GCAGGAGCAC?GAGTTCTTGT?GGTGTGCTCT?GAGATCACTG
661 TTGTTACATT?TCGCGGCCCT?TCCGAAGATG?CTTTGGACTC?TTTAGTTGGC?CAAGCCCTTT
721 TTGGTGATGG?GTCTGCAGCT?GTAATCGTAG?GATCAGATCC?GGATATCTCA?ATTGAACGAC
781 CACTCTTCCA?GCTTGTCTCA?GCAGCCCAAA?CATTTATTCC?TAATTCTGCA?GGTGCCATTG
841 CAGGAAACTT?ACGTGAGGTG?GGACTCACCT?TTCATTTGTG?GCCCAATGTG?CCCACTTTAA
901 TTTCTGAGAA?CATAGAGAAA?TGTTTGACTC?AGGCTTTTGA?CCCACTTGGT?ATTAGCGATT
961 GGAACTCGTT?ATTTTGGATT?GCTCACCCAG?GTGGCCCTGC?AATTCTTGAT?GCAGTTGAAG
1021?CAAAACTCAA?GTTAGATAAA?AAGAAACTCG?AAGCAACGAG?GCATGTGCTA?AGTGAGTATG
1081?GAAACATGTC?AAGTGCATGT?GTGTTGTTTA?TTTTGGATGA?GATGAGAAAG?AAATCCCTTA
1141?AGGGGGAGAG?GGCCACCACA?GGTGAAGGAT?TGGATTGGGG?AGTATTATTC?GGTTTTGGAC
1201?CAGGCTTGAC?TATTGAAACT?GTTGTGTTGC?ATAGCATTCC?TATGGTTACA?AATTAAGTGA
1261?AGGAAAAGAG?AATGGTCCCT?TCAATGTCCT?ATTATGTTGA?ATAGGAGTAA?GGTATTTATC
1321?TCCGAAACTA?AATTATACTC?TTAAACTATT?TTATTATTTT?TTCTAAATTT?AGATTGTAAT
1381?CTAGTGATTG?TTAGGCCCTC?TTGGTGAGCT?CAAATTAAAC?GGTTGAGTTT?CAAGTTCAGA
1441?CTGTTTTATT?ATCTTGAAGA?TTCCCCAAAC?ATTGTAATGT?TGTGTTCATA?TGAACATTGT
1501?TGAAAAGTAA?ATAAAAGAAA?TATTGGAAAA?AAAAAAAAAA?AAAAAAAAAA?AAAAAA。
9. the described Chinese Portugal of claim 1 belongs to wild species East China grape stilbene synthase gene sequence, is making up the application that plant expression vector improves the disease resistance of plant.
10. application as claimed in claim 9 is characterized in that making plant produce trans-resveratrol by genetically engineered, and the above-mentioned plant that relates to comprises wheat, tomato, paddy rice, corn, soybean, rape.
11. application as claimed in claim 9 is characterized in that utilizing stilbene synthase gene to make up the application that prokaryotic expression carrier is expressed this gene coded protein and made up various fusion eggs.
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| CNB2005100416624A CN100523178C (en) | 2005-01-27 | 2005-01-27 | Chinese grape wild species east China grape stilbene synthetase gene sequence and its use |
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Cited By (3)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| CN102220350A (en) * | 2010-04-15 | 2011-10-19 | 上海科爱生物技术有限公司 | Method for expressing resveratrol stilbene synthase and preparing resveratrol by utilizing insect system |
| CN105007718A (en) * | 2012-12-17 | 2015-10-28 | 大韩民国(农村振兴厅长) | Unhulled rice of biosynthesizing resveratrol, and use thereof |
| CN112410356A (en) * | 2020-11-10 | 2021-02-26 | 浙江理工大学 | Resveratrol synthase gene RS derived from radix tetrastigme and application thereof |
Families Citing this family (1)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| CN102121007A (en) * | 2010-12-03 | 2011-07-13 | 西北农林科技大学 | Application of pathogenic bacterium induction type promoter sequence of stilbene synthase gene of grape |
-
2005
- 2005-01-27 CN CNB2005100416624A patent/CN100523178C/en not_active Expired - Fee Related
Cited By (5)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| CN102220350A (en) * | 2010-04-15 | 2011-10-19 | 上海科爱生物技术有限公司 | Method for expressing resveratrol stilbene synthase and preparing resveratrol by utilizing insect system |
| CN102220350B (en) * | 2010-04-15 | 2012-09-19 | 上海科爱生物技术有限公司 | Method for expressing resveratrol stilbene synthase and preparing resveratrol by utilizing insect system |
| CN105007718A (en) * | 2012-12-17 | 2015-10-28 | 大韩民国(农村振兴厅长) | Unhulled rice of biosynthesizing resveratrol, and use thereof |
| CN112410356A (en) * | 2020-11-10 | 2021-02-26 | 浙江理工大学 | Resveratrol synthase gene RS derived from radix tetrastigme and application thereof |
| CN112410356B (en) * | 2020-11-10 | 2023-07-18 | 杭州鑫旺途科技有限公司 | Resveratrol synthase gene RS from radix tetrastigme and application thereof |
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