CN1648252A - Wheat TaGI1 gene and its cloning and use - Google Patents

Abstract

The present invention relates to the cloning, recombination, function analysis and application of wheat TaGI1 gene, and belongs to the field of molecular biology and biotechnology. Through extracting total RNA from ear of wheat, inversely transcribing 2 microgram of total RNA into cDNA; designing one pair of amphoteric primers based on conservative G1 (Arabidopsis thalianum) and OsGI (rice) nucleotide sequence for conventional PCR, connecting PCR product to pGEM-T vector, converting DH5alpha cell, determining sequence; and fast amplifying in 3' end and 5' end, whole length cDNA is obtained. Three sequences with very high homogeny are obtained and named as TaGI1, TaGI2 and TaGI3 separately. Positive sense expression vector is further constituted with whole length TaGI1 cDNA and used in transforming Arabidopsis thalianum to result in antecedent florescence. Therefore, the gene may be used to regulate the growth period of other crops effectively.

Description

Wheat TaGI1 gene and clone thereof and application

(1) technical field:

The present invention relates to clone, reorganization, functional analysis and the application thereof of TaGI1 gene in the wheat, belong to molecular biology and biological technical field.

(2) background technology:

Plant is by the transformation of vegetative growth phase to generative growth phase, flower change, be the committed step that plant is finished whole life cycle.The flowering of plant time is controlled by inherent ambient signal of growing signal and outside jointly.Studies show that in the last few years mainly contains four approach controls and blooms, and is respectively photoperiod promotion approach, independently promotes approach, vernalization to promote approach and GA to promote approach.With Arabidopis thaliana and paddy rice isotype plant is object, participates in some important gene that the photoperiod promotes approach, as GI, CO, is come out by the clone in succession.Caused after the Arabidopis thaliana GI transgenation its mutant under the long day condition late blooming (Koomneef et al., Mol.Gen.Genet.1991,229:57-66).People such as Curtis oppositely change the segment of Arabidopis thaliana GI gene in the radish, the result caused transgenosis radish bolting and bloom all and to postpone (Curtis et al., Transgenic Res.2002,11:249-256).The GI gene (OsGI) of paddy rice change in the paddy rice after the overexpression render transgenic paddy rice still under the short day condition, all bloom evening under the long day condition (Hayama et al.Nature 2003,422:719-22).Studies have shown that the GI gene directly affects the flowering time of plant at the intravital expression level of plant, and then influence the breeding cycle of plant.Therefore, can utilize plant transgenic technology to regulate the growth and development of plant cycle.

The long day plant wheat is one of important crops in the world.One of traditional main breeding technique is to introduce a fine variety, and just the good crop varieties in other places or foreign country is introduced the locality, uses as commercial variety or breeding material.But of will finish from the seed to the seed of wheat grows the cycle, must be by vernalization stage and photostage, otherwise just can not the normally solid output of obtaining.But because weather condition such as the illumination of all parts of the world, temperature are widely different, so the work of introducing a fine variety is very restricted.If can utilize the biotechnology means to regulate growing the cycle of wheat, the scope of introducing a fine variety so just can greatly enlarge.

In view of the above, the present invention utilizes reverse transcription-polymerase chain reaction to isolate the homologous gene of three GI genes from wheat.Further make up the sense expression vector of TaGI1, transformation mode plant Arabidopis thaliana, transfer-gen plant is carried about the last week than wild-type contrast flowering time.This gene can be used for plant genetic and transform, and regulates the growth and development of plant cycle.

(3) summary of the invention:

The present invention isolates the full-length cDNA of three TaGI genes first from wheat, difference called after TaGI1, TaGI2, TaGI3, and the TaGI1 full-length cDNA is connected on the expression vector, utilize the During Agrobacterium arabidopsis thaliana transformation, the flowering time of the transfer-gen plant of acquisition is carried about the last week than the wild-type contrast.

The open reading frame of wheat TaGI1 (AF543844) gene is 3465bp, coding 1155aa.The aminoacid sequence of this genes encoding is retrieved discovery in GeneBank, this gene and GI (Arabidopis thaliana, AY682088) and OsGIP (paddy rice AJ133787) has higher homology (seeing accompanying drawing 1), and its numerical value is 63% and 87% amino acid identity.This result shows that this gene is the homologous gene of Arabidopis thaliana GI gene in wheat.This gene order is as follows:

Sequence table

(1) information of SEQ ID NO.1

(a) sequence signature

^*Length: 4012 base pairs

^*Type: nucleic acid

^*Chain: two strands

^*Topological framework: linearity

(b) molecule type: cDNA

(c) suppose: not

(d) antisense: not

(e) initial source: wheat

(f) sequence description: SEQ ID NO.1

1?ctccgtattg?gagcgctcct?gaccgagaga?cgttaagcgc?ctatggttgg?aactggttga 60

61?tatgatatct?ggtcacattg?tgggatgcaa?tcccccctta?gtggggggtg?attgaagaag 120

121?tcaacaatag?gaggacttgc?atcttgctga?agttttctgc?ttctgagttt?cttgagcagg 180

181?ctcttaaact?accaagtatg?tcagtgtcaa?atgggaagtg?gattgatggg?ctccagttct 240

241?catcactgtt?ctggcccccg?ccacacgatg?tgcagcagaa?acaggcacaa?attttagcct 300

301?atgtcgagta?ctttgggcag?ttcacatctg?acagcgagca?attcccggag?gatgtagctc 360

361?agctaattca?aagttgctat?ccatcaaaag?aaaagcggtt?ggtagatgaa?gtattagcaa 420

421?cttttgttct?ccatcaccct?gaacatggtc?atgcagttgt?acatccaatt?ctttcacgca 480

481?tcatagatgg?gacactgagt?tatgatagtc?atggttcccc?attcaattcc?ttcatctctt 540

541?tatttaccca?aagttctgag?aaagagtact?cagagcagtg?ggccttggcc?tgtggagaaa 600

601?ttcttagagt?tctaactcac?tacaacaggc?caatctttaa?agttgcagac?tgtaaccacc 660

661?agatcagacc?aggccacagc?aagttgtttt?gcacagagaa?agcaattact?cttccaggaa 720

721?atgaacccga?agggaagcca?ttgaggccat?tatctccttg?gatcacagat?attgtgctaa 780

781?ctgcaccttt?gggcattaga?agcgactatt?ttagatggtg?tggtggagtt?atgggaaaat 840

841?acgcagctgg?tggagaattg?aagcctccaa?caactgctta?cagccgagga?gctggcaagc 900

901?acccacaact?catgccatcc?accccaagat?gggctgttgc?caatggagct?ggagttattt 960

961?taagtgtctg?tgatgaggaa?gtagctcgtt?atgagacagc?aaacttaacc?gcggcagctg?1020

1021?ttcccgccct?tctgctacct?ccaccgacaa?cacccttgga?tgagcatttg?gtggcagggc?1080

1081?taccccctct?cgaaccatac?gctcgcttgt?ttcatagata?ctacgcaatt?gccacaccaa?1140

1141?gtgctacgca?aagattgctt?tttggtcttc?ttgaagcacc?accgtcatgg?gctccagatg?1200

1201?cacttgatgc?agcagttcag?cttgttgaac?tccttcgggc?agctgaagat?tatgctactg?1260

1261?gcatgcggct?tccaaaaaat?tggttgcatc?ttcatttctt?gcgtgcgatt?ggaactgcaa?1320

1321?tgtctatgag?ggctggtatt?gctgctgata?cagctgctgc?gttgcttttt?cgcatactat?1380

1381?cccaaccaat?gttgcttttt?cctccactaa?ggcatgctga?aggagttgaa?gtgcaacatg?1440

1441?aaccactggg?tggctatgta?tcatcataca?aaagacagct?ggaagttcct?gcatctgaaa?1500

1501?ccacaattga?tgccactgca?caaggcattg?cttccttgct?gtgtgctcat?ggtcctgatg?1560

1561?ttgagtggag?aatatgtacc?atctgggaag?ctgcctatgg?tttgttacct?ctgaattcat?1620

1621?cagcagttga?tttacccgaa?atcgttgtag?ctgctccgct?tcagccacct?actttgtcat?1680

1681?ggagcctata?cttgccactg?ttgaaagtat?ttgagtatct?acctcgtgga?agtccatctg?1740

1741?aagcatgcct?tatgagaata?tttgtggcaa?cagttgaagc?tatactcaga?agaactttcc?1800

1801?cttcggaaac?ctctgaatca?tctaaaagac?caagaagtca?atccaagaac?cttgctgttg?1860

1861?ctgaactccg?tacgatgata?cattcactct?ttgttgaatc?atgtgcttca?atgaaccttg?1920

1921?cttcccggtt?gttgtttgta?gtattaactg?tttgcgtcag?tcatcaagct?ttgccagggg?1980

1981?gcagcaaaag?accaactggt?agtgaaaacc?attcttctga?ggaggccact?gaggacccaa?2040

2041?gattaaccaa?tggaagaaat?agggtcaaga?agaaacaagg?gcctgttggt?acatttgact?2100

2101?cgtatgtgct?ggccgctgtt?tgtgccttat?cttgcgagct?tcagctgttc?cctatccttt?2160

2161?gcaagagcgc?aacaaactca?aatgtaaaag?actctataaa?gatcctgaag?cctggaaaaa?2220

2221?acaatgggat?cagtaatgag?ctacagaaca?gcattagctc?agcaattctc?catactcgta?2280

2281?gaattcttgg?catcctggaa?gctcttttct?ccttgaagcc?atcatcagtt?ggtacctcct?2340

2341?ggaactatag?ttcaaatgag?atagttgcag?cggctatggt?tgccgctcat?gcttctgagt?2400

2401?tatttcgccg?gtcgaaggca?tgcctaaatg?cactatcttc?cctgaagcga?tgtaagtggg?2460

2461?atgctgagat?ttctaccagg?gcatcatccc?tctaccattt?gatcgacttg?catggtaaaa?2520

2521?ctgtgtcctc?catcgtgaac?aaagctgagc?ctctagaagc?tcacctgact?tttacatcag?2580

2581?taaagagaga?tgatgaacaa?cacattgagg?aaaatggcac?cagctcatcg?ggtagtggca?2640

2641?acttggaaaa?gaagaatggt?tcagcctcac?acatgaaaaa?tggtttgtca?agaccactct?2700

2701?tgaaatgctc?agaagaggct?aggcgaaatg?gtaatgttgc?aagtacatcc?gggaaagttc?2760

2761?ctgcaacttt?acaggctgaa?gcttctgatt?tggcgaactt?ccttaccatg?gataggaatg?2820

2821?gcggttatcg?aggctctcag?actctcctaa?gatctgttat?ctcagaaaaa?caggaactaa?2880

2881?gcttctctgt?tgtctcattg?ctctggcata?agcttattgc?atctcctgaa?acgcagatgt?2940

2941?ctgcagaaag?tacatcagct?catcaaggtt?ggagaaaggt?tgtagatgct?ctttgtgatg?3000

3001?ttgtttcagc?ctcaccagcc?aaggcttcaa?ctgctattgt?tctgcaggct?gagaaggacc?3060

3061?tacagccctg?gattgctcga?gatgatgagg?aaggtcagaa?gatgtggaga?gtcaaccagc?3120

3121?gaatagttaa?actgatagct?gagcttatga?ggaaccatga?tagcccagaa?gcattgataa?3180

3181?ttcttgctag?tgcttcagac?cttctgcttc?gtgctacaga?tgggatgctt?gttgatggtg?3240

3241?aagcttgtac?cttgcctcag?ttagagctcc?tggaagtaac?tgctagagct?attcatctca?3300

3301?tcgttgaatg?gggagaccca?ggtgtagcag?ttgctgatgg?cctctcaaat?ctgttaaagt?3360

3361?gccgtctatc?gcctaccatc?cgctgcctct?cccacgctag?cgcacacgta?cgtgcgctca?3420

3421?gcatgtccgt?cctccgtgac?atcttgaaca?gtggaccact?aggttccact?aagatcattc?3480

3481?aaggcgagca?acggaatggc?atccaaagcc?cgacctacca?atgcgcggca?gcaaacacgg?3540

3541?tgaactggca?agcggatgtc?gagagatgta?tagactggga?agcccgcagc?cgccgcgcca?3600

3601?ccgggatgac?cctcgccttc?ctcaccgctg?cggctaacga?gctcggctgc?ccccttcctt?3660

3661?gctgacaagg?ccatatttgg?agctgacaat?cagcgacact?tgacagttgg?cgcgagcagt?3720

3721?tgctgcatgg?tcagcgagca?ggatggctaa?ttaatccctt?gctcaaggat?ggcttcccag?3780

3781?tctgccctgc?ccccatgatg?tgattcaaaa?ctgatgtata?ttagctgatg?ttcccaatca?3840

3841?tacggagctt?tgctcccccg?gtgtgatttt?aacttgcaat?ctgacgttag?atgttcaagc?3900

3901?atattgaaac?tgcttgtgct?gtaacttgta?ttcatgatgt?aaccgaaaga?tgtccgctat?3960

3961?ggtaaatgaa?gacatgtcat?ttttcgttct?ccaaaaaaaa?aaaaaaaaaa?aa 4012

(2) information of SEQ ID NO.2

(a) sequence signature

^*Length: 1155 amino acid

^*Type: amino acid

^*Chain: strand

^*Topological framework: linearity

(b) molecule type: protein

(c) sequence description

0001 MSVSNGKWID GLQFSSLFWP PPHDVQQKQA QILAYVEYFG QFTSDSEQFP EDVAQLIQSC 60

0061 YPSKEKRLVD EVLATFVLHH PEHGHAVVHP ILSRIIDGTL SYDSHGSPFN SFISLFTQSS 120

0121 EKEYSEQWAL ACGEILRVLT HYNRPIFKVA DCNHQIRPGH SKLFCTEKAI TLPGNEPEGK 180

0181 PLRPLSPWIT DIVLTAPLGI RSDYFRWCGG VMGKYAAGGE LKPPTTAYSR GAGKHPQLMP 240

0241 STPRWAVANG AGVILSVCDE EVARYETANL TAAAVPALLL PPPTTPLDEH LVAGLPPLEP 300

0301 YARLFHRYYA IATPSATQRL LFGLLEAPPS WAPDALDAAV QLVELLRAAE DYATGMRLPK 360

0361 NWLHLHFLRA IGTAMSMRAG IAADTAAALL FRILSQPMLL FPPLRHAEGV EVQHEPLGGY 420

0421 VSSYKRQLEV PASETTIDAT AQGIASLLCA HGPDVEWRIC TIWEAAYGLL PLNSSAVDLP 480

0481 EIVVAAPLQP PTLSWSLYLP LLKVFEYLPR GSPSEACLMR IFVATVEAIL RRTFPSETSE 540

0541 SSKRPRSQSK NLAVAELRTM IHSLFVESCA SMNLASRLLF VVLTVCVSHQ ALPGGSKRPT 600

0601 GSENHSSEEA TEDPRLTNGR NRVKKKQGPV GTFDSYVLAA VCALSCELQL FPILCKSATN 660

0661 SNVKDSIKIL KPGKNNGISN ELQNSISSAI LHTRRILGIL EALFSLKPSS VGTSWNYSSN 720

0721 EIVAAAMVAA HASELFRRSK ACLNALSSLK RCKWDAEIST RASSLYHLID LHGKTVSSIV 780

0781 NKAEPLEAHL TFTSVKRDDE QHIEENGTSS SGSGNLEKKN GSASHMKNGL SRPLLKCSEE 840

0841 ARRNGNVAST SGKVPATLQA EASDLANFLT MDRNGGYRGS QTLLRSVISE KQELSFSVVS 900

0901 LLWHKLIASP ETQMSAESTS AHQGWRKVVD ALCDVVSASP AKASTAIVLQ AEKDLQPWIA 960

0961 RDDEEGQKMW RVNQRIVKLI AELMRNHDSP EALIILASAS DLLLRATDGM LVDGEACTLP 1020

1021 QLELLEVTAR AIHLIVEWGD PGVAVADGLS NLLKCRLSPT IRCLSHASAH VRALSMSVLR 1080

1081 DILNSGPLGS TKIIQGEQRN GIQSPTYQCA AANTVNWQAD VERCIDWEAR SRRATGMTLA 1140

1141 FLTAAANELG CPLPC 1155

Extracting genomic dna from the wheat spire, carry out enzyme with different restriction enzymes respectively then and cut, is that the template synthesising probing needle carries out the Southern hybridization analysis with one section sequence of TaGI1.The result is presented at the homologous gene that has three GI genes in the wheat cdna group, and these three genes are TaGI1, TaGI2 and TaGI3 (accompanying drawing 3) just.In addition, show that the TaGI1 gene all has expression (seeing accompanying drawing 2) in each histoorgan except that endosperm by the Northen hybridization analysis that carries out for different wheat histoorgans.

Utilize the osmose process arabidopsis thaliana transformation, the seed of results screens containing on the LB solid medium of kantlex, with the resistance seedling that filters out on the GM substratum with the wild-type co-cultivation.The result shows, compares with wild-type, and transfer-gen plant is equal early flowering (seeing accompanying drawing 4) under long day and short day condition.

According to above-mentioned technology, from wheat, be separated to TaGI1, TaGI2, TaGI3 gene, the overexpression of TaGI1 gene can cause transgenic arabidopsis to be carried about the last week blooming.Wheat is global important food crop, changes this gene over to wheat and makes its expression can regulate the cycle of growing and the flowering time of wheat, has very important economic benefit and social benefit.

(4) description of drawings:

The amino acid identity of OsGIP is relatively in GI and the paddy rice in TaGI1, TaGI2, TaGI3 and the Arabidopis thaliana in Fig. 1 wheat.

The Northern hybridization of Fig. 2 TaGI1 gene in the different tissues organ.R (root), S (stem), L (leaf), SP (little spike primordium), Spi (small ear), Em (embryo), En (endosperm).

Fig. 3 TaGI gene Southem hybridization.X，Xba?I；B，BamH?I；N，NdeI。

Fig. 4 transgenic arabidopsis is equal early flowering under long day and short day condition.

(5) concrete invention embodiment:

Embodiment 1: the cloning process of wheat TaGI1 gene

(1) extraction of RNA: adopt single stage method or RNAkit to extract total RNA

(2) A article one chain is synthetic: get the total RNA of 2 μ g, add 5 * reaction buffer, 4 μ l, 10mM thymus nucleic acid (dNTP) 2 μ l, ribonuclease inhibitor (40-200u/ μ l) 0.5 μ l, primer oligodT (1 μ g/ μ l) 1 μ l, ThermoScript II (10u/ μ l) 2 μ l, 42 ℃ were reacted 60 minutes, place 10 minutes termination reactions, be diluted to 200 μ l for 85 ℃.

(3) PCR reaction: polymerase chain reaction (PCR) reagent and condition are:

At first following reagent is mixed:

10 * reaction buffer, 5 μ l

Deoxynucleoside acid mixture (dNTP) 4 μ l

Forward primer (5 μ M) 4 μ l

Reverse primer (5 μ M) 4 μ l

Template cDNA 4 μ l

TaqDNA polysaccharase 0.5 μ l

Cumulative volume 50 μ l

The PCR reaction conditions is: 94 ℃ 3 minutes; Enter following circulation then: 94 ℃ 1 minute, 56 ℃ 1 minute, 72 ℃ 1 minute, totally 35 circulations; Last 72 ℃ were extended 10 minutes.

(4) gene clone: get 2 μ lPCR products and be connected with the pGEM-T carrier, operation steps is undertaken by Promega company product pGEM-T and pGEM-T easy Vector system specification sheets.Connect product transformed into escherichia coli DH5 α bacterial strain then, be coated with grow overnight on the LB flat board that contains penbritin (100 μ g/ml) of 5-bromo-4-chloro-3-indoles-β-D-galactoside and X-gal on the surface.The picking white colony, overnight incubation in the LB liquid nutrient medium.

(5) extraction of plasmid DNA: alkaline process extracts plasmid DNA.

(6) sequencing: originally be operated in Dalian Bao Bio-Engineering Company and carry out.

The separation of (7) 5 ' sequences: the SMAR TRACE cDNA AmplificationKit specification sheets by Clontech company carries out

(8) homology retrieval: utilize BLAST software that the sequence in isolated sequence and the gene library is compared.

Embodiment 2: the nucleotide sequence and the aminoacid sequence of wheat TaGI1 gene seen " summary of the invention " part respectively.

Embodiment 3: the structure of expression vector

(1) according to the nucleotide sequence of isolated TaGI1 gene, design primer:

Forward primer: 5 '-TATTCTAGACGAGGTGGCGACCGGCATGG-3 '

Reverse primer: 5 '-GACGAGCTCCTTAACTACGGTCTTCTGC-3 '

CDNA with total RNA reverse transcription of root is a template, carries out the polymerase chain reaction.

(2) get 2 μ l PCR and be connected with the pGEM-T carrier, operation steps is undertaken by Promega company product pGEM-T and pGEM-T easy Vector system specification sheets.Transformed into escherichia coli DH5 α bacterial strain then is coated with grow overnight on the LB flat board that contains penbritin (100 μ g/ml) of 5-bromo-4-chloro-3-indoles-β-D-galactoside and X-gal on the surface.The picking white colony, overnight incubation in the LB liquid nutrient medium.Alkaline process extracts plasmid DNA, carries out sequencing.

(3) with the BamH1 restriction enzyme this gene is downcut from the pGEM-T carrier, be connected with the pROK II that the same enzyme enzyme is cut.Connect product and transform DH5 α cell, cultivate containing on the LB solid plate of penbritin then, bacterium colony is carried out PCR identifies and the restriction analysis of plasmid DNA.

(4) expression vector that builds is transformed Agrobacterium GV3101.

Embodiment 4: gene function analysis

(1) plantation Arabidopis thaliana.

(2) the Agrobacterium mono-clonal identified of picking is in the LB liquid nutrient medium that contains 50 μ g/ml kantlex, 28 ℃ of shaking culture.

(3) centrifugal collection thalline, precipitation is with permeating substratum (5% sucrose, 0.1M MgCl ₂, 0.5%SilwetL-77) suspend bacterium liquid OD ₆₀₀About 0.8.

(4) the Arabidopis thaliana inflorescence is immersed in the penetrating fluid, soaked 5 minutes.

(5) Shou Huo seed obtains resistant plant in screening culture medium (1 * MS salt, 1% sucrose, pH5.7,0.8% agar, kantlex 30 μ g/ml) screening.

(6) T3 is cultivated on the GM substratum for homozygous lines seed kind, plant wild-type simultaneously and compare, the number of statistics lotus throne leaf was to measure flowering time when plant was taken out inflorescence.The results are shown in accompanying drawing 4.

Sequence table

＜110〉Shandong Agricultural University

＜120〉wheat TaGI1 gene and clone thereof and application

<160>1

<170>patent?In?3.1

<210>1

<211>4012

<212>cDNA

＜213〉wheat (Triticum aestivum L.)

<221>1-4012

<400>1

1?CTCCGTATTG?GAGCGCTCCT?GACCGAGAGA?CGTTAAGCGC?CTATGGTTGG?AACTGGTTGA 60

61?TATGATATCT?GGTCACATTG?TGGGATGCAA?TCCCCCCTTA?GTGGGGGGTG?ATTGAAGAAG 120

121?TCAACAATAG?GAGGACTTGC?ATCTTGCTGA?AGTTTTCTGC?TTCTGAGTTT?CTTGAGCAGG 180

181?CTCTTAAACT?ACCAAGTATG?TCAGTGTCAA?ATGGGAAGTG?GATTGATGGG?CTCCAGTTCT 240

241?CATCACTGTT?CTGGCCCCCG?CCACACGATG?TGCAGCAGAA?ACAGGCACAA?ATTTTAGCCT 300

301?ATGTCGAGTA?CTTTGGGCAG?TTCACATCTG?ACAGCGAGCA?ATTCCCGGAG?GATGTAGCTC 360

361?AGCTAATTCA?AAGTTGCTAT?CCATCAAAAG?AAAAGCGGTT?GGTAGATGAA?GTATTAGCAA 420

421?CTTTTGTTCT?CCATCACCCT?GAACATGGTC?ATGCAGTTGT?ACATCCAATT?CTTTCACGCA 480

481?TCATAGATGG?GACACTGAGT?TATGATAGTC?ATGGTTCCCC?ATTCAATTCC?TTCATCTCTT 540

541?TATTTACCCA?AAGTTCTGAG?AAAGAGTACT?CAGAGCAGTG?GGCCTTGGCC?TGTGGAGAAA 600

601?TTCTTAGAGT?TCTAACTCAC?TACAACAGGC?CAATCTTTAA?AGTTGCAGAC?TGTAACCACC 660

661?AGATCAGACC?AGGCCACAGC?AAGTTGTTTT?GCACAGAGAA?AGCAATTACT?CTTCCAGGAA 720

721?ATGAACCCGA?AGGGAAGCCA?TTGAGGCCAT?TATCTCCTTG?GATCACAGAT?ATTGTGCTAA 780

781?CTGCACCTTT?GGGCATTAGA?AGCGACTATT?TTAGATGGTG?TGGTGGAGTT?ATGGGAAAAT 840

841?ACGCAGCTGG?TGGAGAATTG?AAGCCTCCAA?CAACTGCTTA?CAGCCGAGGA?GCTGGCAAGC 900

901?ACCCACAACT?CATGCCATCC?ACCCCAAGAT?GGGCTGTTGC?CAATGGAGCT?GGAGTTATTT 960

961?TAAGTGTCTG?TGATGAGGAA?GTAGCTCGTT?ATGAGACAGC?AAACTTAACC?GCGGCAGCTG?1020

1021?TTCCCGCCCT?TCTGCTACCT?CCACCGACAA?CACCCTTGGA?TGAGCATTTG?GTGGCAGGGC?1080

1081?TACCCCCTCT?CGAACCATAC?GCTCGCTTGT?TTCATAGATA?CTACGCAATT?GCCACACCAA?1140

1141?GTGCTACGCA?AAGATTGCTT?TTTGGTCTTC?TTGAAGCACC?ACCGTCATGG?GCTCCAGATG?1200

1201?CACTTGATGC?AGCAGTTCAG?CTTGTTGAAC?TCCTTCGGGC?AGCTGAAGAT?TATGCTACTG?1260

1261?GCATGCGGCT?TCCAAAAAAT?TGGTTGCATC?TTCATTTCTT?GCGTGCGATT?GGAACTGCAA?1320

1321?TGTCTATGAG?GGCTGGTATT?GCTGCTGATA?CAGCTGCTGC?GTTGCTTTTT?CGCATACTAT?1380

1381?CCCAACCAAT?GTTGCTTTTT?CCTCCACTAA?GGCATGCTGA?AGGAGTTGAA?GTGCAACATG?1440

1441?AACCACTGGG?TGGCTATGTA?TCATCATACA?AAAGACAGCT?GGAAGTTCCT?GCATCTGAAA?1500

1501?CCACAATTGA?TGCCACTGCA?CAAGGCATTG?CTTCCTTGCT?GTGTGCTCAT?GGTCCTGATG?1560

1561?TTGAGTGGAG?AATATGTACC?ATCTGGGAAG?CTGCCTATGG?TTTGTTACCT?CTGAATTCAT?1620

1621?CAGCAGTTGA?TTTACCCGAA?ATCGTTGTAG?CTGCTCCGCT?TCAGCCACCT?ACTTTGTCAT?1680

1681?GGAGCCTATA?CTTGCCACTG?TTGAAAGTAT?TTGAGTATCT?ACCTCGTGGA?AGTCCATCTG?1740

1741?AAGCATGCCT?TATGAGAATA?TTTGTGGCAA?CAGTTGAAGC?TATACTCAGA?AGAACTTTCC?1800

1801?CTTCGGAAAC?CTCTGAATCA?TCTAAAAGAC?CAAGAAGTCA?ATCCAAGAAC?CTTGCTGTTG?1860

1861?CTGAACTCCG?TACGATGATA?CATTCACTCT?TTGTTGAATC?ATGTGCTTCA?ATGAACCTTG?1920

1921?CTTCCCGGTT?GTTGTTTGTA?GTATTAACTG?TTTGCGTCAG?TCATCAAGCT?TTGCCAGGGG?1980

1981?GCAGCAAAAG?ACCAACTGGT?AGTGAAAACC?ATTCTTCTGA?GGAGGCCACT?GAGGACCCAA?2040

2041?GATTAACCAA?TGGAAGAAAT?AGGGTCAAGA?AGAAACAAGG?GCCTGTTGGT?ACATTTGACT?2100

2101?CGTATGTGCT?GGCCGCTGTT?TGTGCCTTAT?CTTGCGAGCT?TCAGCTGTTC?CCTATCCTTT?2160

2161?GCAAGAGCGC?AACAAACTCA?AATGTAAAAG?ACTCTATAAA?GATCCTGAAG?CCTGGAAAAA?2220

2221?ACAATGGGAT?CAGTAATGAG?CTACAGAACA?GCATTAGCTC?AGCAATTCTC?CATACTCGTA?2280

2281?GAATTCTTGG?CATCCTGGAA?GCTCTTTTCT?CCTTGAAGCC?ATCATCAGTT?GGTACCTCCT?2340

2341?GGAACTATAG?TTCAAATGAG?ATAGTTGCAG?CGGCTATGGT?TGCCGCTCAT?GCTTCTGAGT?2400

2401?TATTTCGCCG?GTCGAAGGCA?TGCCTAAATG?CACTATCTTC?CCTGAAGCGA?TGTAAGTGGG?2460

2461?ATGCTGAGAT?TTCTACCAGG?GCATCATCCC?TCTACCATTT?GATCGACTTG?CATGGTAAAA?2520

2521?CTGTGTCCTC?CATCGTGAAC?AAAGCTGAGC?CTCTAGAAGC?TCACCTGACT?TTTACATCAG?2580

2581?TAAAGAGAGA?TGATGAACAA?CACATTGAGG?AAAATGGCAC?CAGCTCATCG?GGTAGTGGCA?2640

2641?ACTTGGAAAA?GAAGAATGGT?TCAGCCTCAC?ACATGAAAAA?TGGTTTGTCA?AGACCACTCT?2700

2701?TGAAATGCTC?AGAAGAGGCT?AGGCGAAATG?GTAATGTTGC?AAGTACATCC?GGGAAAGTTC?2760

2761?CTGCAACTTT?ACAGGCTGAA?GCTTCTGATT?TGGCGAACTT?CCTTACCATG?GATAGGAATG?2820

2821?GCGGTTATCG?AGGCTCTCAG?ACTCTCCTAA?GATCTGTTAT?CTCAGAAAAA?CAGGAACTAA?2880

2881?GCTTCTCTGT?TGTCTCATTG?CTCTGGCATA?AGCTTATTGC?ATCTCCTGAA?ACGCAGATGT?2940

2941?CTGCAGAAAG?TACATCAGCT?CATCAAGGTT?GGAGAAAGGT?TGTAGATGCT?CTTTGTGATG?3000

3001?TTGTTTCAGC?CTCACCAGCC?AAGGCTTCAA?CTGCTATTGT?TCTGCAGGCT?GAGAAGGACC?3060

3061?TACAGCCCTG?GATTGCTCGA?GATGATGAGG?AAGGTCAGAA?GATGTGGAGA?GTCAACCAGC?3120

3121?GAATAGTTAA?ACTGATAGCT?GAGCTTATGA?GGAACCATGA?TAGCCCAGAA?GCATTGATAA?3180

3181?TTCTTGCTAG?TGCTTCAGAC?CTTCTGCTTC?GTGCTACAGA?TGGGATGCTT?GTTGATGGTG?3240

3241?AAGCTTGTAC?CTTGCCTCAG?TTAGAGCTCC?TGGAAGTAAC?TGCTAGAGCT?ATTCATCTCA?3300

3301?TCGTTGAATG?GGGAGACCCA?GGTGTAGCAG?TTGCTGATGG?CCTCTCAAAT?CTGTTAAAGT?3360

3361?GCCGTCTATC?GCCTACCATC?CGCTGCCTCT?CCCACGCTAG?CGCACACGTA?CGTGCGCTCA?3420

3421?GCATGTCCGT?CCTCCGTGAC?ATCTTGAACA?GTGGACCACT?AGGTTCCACT?AAGATCATTC?3480

3481?AAGGCGAGCA?ACGGAATGGC?ATCCAAAGCC?CGACCTACCA?ATGCGCGGCA?GCAAACACGG?3540

3541?TGAACTGGCA?AGCGGATGTC?GAGAGATGTA?TAGACTGGGA?AGCCCGCAGC?CGCCGCGCCA?3600

3601?CCGGGATGAC?CCTCGCCTTC?CTCACCGCTG?CGGCTAACGA?GCTCGGCTGC?CCCCTTCCTT?3660

3661?GCTGACAAGG?CCATATTTGG?AGCTGACAAT?CAGCGACACT?TGACAGTTGG?CGCGAGCAGT?3720

3721?TGCTGCATGG?TCAGCGAGCA?GGATGGCTAA?TTAATCCCTT?GCTCAAGGAT?GGCTTCCCAG?3780

3781?TCTGCCCTGC?CCCCATGATG?TGATTCAAAA?CTGATGTATA?TTAGCTGATG?TTCCCAATCA?3840

3841?TACGGAGCTT?TGCTCCCCCG?GTGTGATTTT?AACTTGCAAT?CTGACGTTAG?ATGTTCAAGC?3900

3901?ATATTGAAAC?TGCTTGTGCT?GTAACTTGTA?TTCATGATGT?AACCGAAAGA?TGTCCGCTAT?3960

3961?GGTAAATGAA?GACATGTCAT?TTTTCGTTCT?CCAAAAAAAA?AAAAAAAAAA?AA 4012

Claims (2)

1. the gene TaGI1 of a clone control wheat flower development is characterized in that it has the sequence shown in following:

01?CTCCGTATTG?GAGCGCTCCT?GACCGAGAGA?CGTTAAGCGC?CTATGGTTGG?AACTGGTTGA 60

61?TATGATATCT?GGTCACATTG?TGGGATGCAA?TCCCCCCTTA?GTGGGGGGTG?ATTGAAGAAG 120

121?TCAACAATAG?GAGGACTTGC?ATCTTGCTGA?AGTTTTCTGC?TTCTGAGTTT?CTTGAGCAGG 180

181?CTCTTAAACT?ACCAAGTATG?TCAGTGTCAA?ATGGGAAGTG?GATTGATGGG?CTCCAGTTCT 240

241?CATCACTGTT?CTGGCCCCCG?CCACACGATG?TGCAGCAGAA?ACAGGCACAA?ATTTTAGCCT 300

301?ATGTCGAGTA?CTTTGGGCAG?TTCACATCTG?ACAGCGAGCA?ATTCCCGGAG?GATGTAGCTC 360

361?AGCTAATTCA?AAGTTGCTAT?CCATCAAAAG?AAAAGCGGTT?GGTAGATGAA?GTATTAGCAA 420

421?CTTTTGTTCT?CCATCACCCT?GAACATGGTC?ATGCAGTTGT?ACATCCAATT?CTTTCACGCA 480

481?TCATAGATGG?GACACTGAGT?TATGATAGTC?ATGGTTCCCC?ATTCAATTCC?TTCATCTCTT 540

541?TATTTACCCA?AAGTTCTGAG?AAAGAGTACT?CAGAGCAGTG?GGCCTTGGCC?TGTGGAGAAA 600

601?TTCTTAGAGT?TCTAACTCAC?TACAACAGGC?CAATCTTTAA?AGTTGCAGAC?TGTAACCACC 660

661?AGATCAGACC?AGGCCACAGC?AAGTTGTTTT?GCACAGAGAA?AGCAATTACT?CTTCCAGGAA 720

721?ATGAACCCGA?AGGGAAGCCA?TTGAGGCCAT?TATCTCCTTG?GATCACAGAT?ATTGTGCTAA 780

781?CTGCACCTTT?GGGCATTAGA?AGCGACTATT?TTAGATGGTG?TGGTGGAGTT?ATGGGAAAAT 840

841?ACGCAGCTGG?TGGAGAATTG?AAGCCTCCAA?CAACTGCTTA?CAGCCGAGGA?GCTGGCAAGC 900

901?ACCCACAACT?CATGCCATCC?ACCCCAAGAT?GGGCTGTTGC?CAATGGAGCT?GGAGTTATTT 960

961?TAAGTGTCTG?TGATGAGGAA?GTAGCTCGTT?ATGAGACAGC?AAACTTAACC?GCGGCAGCTG?1020

1021?TTCCCGCCCT?TCTGCTACCT?CCACCGACAA?CACCCTTGGA?TGAGCATTTG?GTGGCAGGGC?1080

1081?TACCCCCTCT?CGAACCATAC?GCTCGCTTGT?TTCATAGATA?CTACGCAATT?GCCACACCAA?1140

1141?GTGCTACGCA?AAGATTGCTT?TTTGGTCTTC?TTGAAGCACC?ACCGTCATGG?GCTCCAGATG?1200

1201?CACTTGATGC?AGCAGTTCAG?CTTGTTGAAC?TCCTTCGGGC?AGCTGAAGAT?TATGCTACTG?1260

1261?GCATGCGGCT?TCCAAAAAAT?TGGTTGCATC?TTCATTTCTT?GCGTGCGATT?GGAACTGCAA?1320

1321?TGTCTATGAG?GGCTGGTATT?GCTGCTGATA?CAGCTGCTGC?GTTGCTTTTT?CGCATACTAT?1380

1381?CCCAACCAAT?GTTGCTTTTT?CCTCCACTAA?GGCATGCTGA?AGGAGTTGAA?GTGCAACATG?1440

1441?AACCACTGGG?TGGCTATGTA?TCATCATACA?AAAGACAGCT?GGAAGTTCCT?GCATCTGAAA?1500

1501?CCACAATTGA?TGCCACTGCA?CAAGGCATTG?CTTCCTTGCT?GTGTGCTCAT?GGTCCTGATG?1560

1561?TTGAGTGGAG?AATATGTACC?ATCTGGGAAG?CTGCCTATGG?TTTGTTACCT?CTGAATTCAT?1620

1621?CAGCAGTTGA?TTTACCCGAA?ATCGTTGTAG?CTGCTCCGCT?TCAGCCACCT?ACTTTGTCAT?1680

1681?GGAGCCTATA?CTTGCCACTG?TTGAAAGTAT?TTGAGTATCT?ACCTCGTGGA?AGTCCATCTG?1740

1741?AAGCATGCCT?TATGAGAATA?TTTGTGGCAA?CAGTTGAAGC?TATACTCAGA?AGAACTTTCC?1800

1801?CTTCGGAAAC?CTCTGAATCA?TCTAAAAGAC?CAAGAAGTCA?ATCCAAGAAC?CTTGCTGTTG?1860

1861?CTGAACTCCG?TACGATGATA?CATTCACTCT?TTGTTGAATC?ATGTGCTTCA?ATGAACCTTG?1920

1921?CTTCCCGGTT?GTTGTTTGTA?GTATTAACTG?TTTGCGTCAG?TCATCAAGCT?TTGCCAGGGG?1980

1981?GCAGCAAAAG?ACCAACTGGT?AGTGAAAACC?ATTCTTCTGA?GGAGGCCACT?GAGGACCCAA?2040

2041?GATTAACCAA?TGGAAGAAAT?AGGGTCAAGA?AGAAACAAGG?GCCTGTTGGT?ACATTTGACT?2100

2101?CGTATGTGCT?GGCCGCTGTT?TGTGCCTTAT?CTTGCGAGCT?TCAGCTGTTC?CCTATCCTTT?2160

2161?GCAAGAGCGC?AACAAACTCA?AATGTAAAAG?ACTCTATAAA?GATCCTGAAG?CCTGGAAAAA?2220

2221?ACAATGGGAT?CAGTAATGAG?CTACAGAACA?GCATTAGCTC?AGCAATTCTC?CATACTCGTA?2280

2281?GAATTCTTGG?CATCCTGGAA?GCTCTTTTCT?CCTTGAAGCC?ATCATCAGTT?GGTACCTCCT?2340

2341?GGAACTATAG?TTCAAATGAG?ATAGTTGCAG?CGGCTATGGT?TGCCGCTCAT?GCTTCTGAGT?2400

2401?TATTTCGCCG?GTCGAAGGCA?TGCCTAAATG?CACTATCTTC?CCTGAAGCGA?TGTAAGTGGG?2460

2461?ATGCTGAGAT?TTCTACCAGG?GCATCATCCC?TCTACCATTT?GATCGACTTG?CATGGTAAAA?2520

2521?CTGTGTCCTC?CATCGTGAAC?AAAGCTGAGC?CTCTAGAAGC?TCACCTGACT?TTTACATCAG?2580

2581?TAAAGAGAGA?TGATGAACAA?CACATTGAGG?AAAATGGCAC?CAGCTCATCG?GGTAGTGGCA?2640

2641?ACTTGGAAAA?GAAGAATGGT?TCAGCCTCAC?ACATGAAAAA?TGGTTTGTCA?AGACCACTCT?2700

2701?TGAAATGCTC?AGAAGAGGCT?AGGCGAAATG?GTAATGTTGC?AAGTACATCC?GGGAAAGTTC?2760

2761?CTGCAACTTT?ACAGGCTGAA?GCTTCTGATT?TGGCGAACTT?CCTTACCATG?GATAGGAATG?2820

2821?GCGGTTATCG?AGGCTCTCAG?ACTCTCCTAA?GATCTGTTAT?CTCAGAAAAA?CAGGAACTAA?2880

2881?GCTTCTCTGT?TGTCTCATTG?CTCTGGCATA?AGCTTATTGC?ATCTCCTGAA?ACGCAGATGT?2940

2941?CTGCAGAAAG?TACATCAGCT?CATCAAGGTT?GGAGAAAGGT?TGTAGATGCT?CTTTGTGATG?3000

3001?TTGTTTCAGC?CTCACCAGCC?AAGGCTTCAA?CTGCTATTGT?TCTGCAGGCT?GAGAAGGACC?3060

3061?TACAGCCCTG?GATTGCTCGA?GATGATGAGG?AAGGTCAGAA?GATGTGGAGA?GTCAACCAGC?3120

3121?GAATAGTTAA?ACTGATAGCT?GAGCTTATGA?GGAACCATGA?TAGCCCAGAA?GCATTGATAA?3180

3181?TTCTTGCTAG?TGCTTCAGAC?CTTCTGCTTC?GTGCTACAGA?TGGGATGCTT?GTTGATGGTG?3240

3241?AAGCTTGTAC?CTTGCCTCAG?TTAGAGCTCC?TGGAAGTAAC?TGCTAGAGCT?ATTCATCTCA?3300

3301?TCGTTGAATG?GGGAGACCCA?GGTGTAGCAG?TTGCTGATGG?CCTCTCAAAT?CTGTTAAAGT?3360

3361?GCCGTCTATC?GCCTACCATC?CGCTGCCTCT?CCCACGCTAG?CGCACACGTA?CGTGCGCTCA?3420

3421?GCATGTCCGT?CCTCCGTGAC?ATCTTGAACA?GTGGACCACT?AGGTTCCACT?AAGATCATTC?3480

3481?AAGGCGAGCA?ACGGAATGGC?ATCCAAAGCC?CGACCTACCA?ATGCGCGGCA?GCAAACACGG?3540

3541?TGAACTGGCA?AGCGGATGTC?GAGAGATGTA?TAGACTGGGA?AGCCCGCAGC?CGCCGCGCCA?3600

3601?CCGGGATGAC?CCTCGCCTTC?CTCACCGCTG?CGGCTAACGA?GCTCGGCTGC?CCCCTTCCTT?3660

3661?GCTGACAAGG?CCATATTTGG?AGCTGACAAT?CAGCGACACT?TGACAGTTGG?CGCGAGCAGT?3720

3721?TGCTGCATGG?TCAGCGAGCA?GGATGGCTAA?TTAATCCCTT?GCTCAAGGAT?GGCTTCCCAG?3780

3781?TCTGCCCTGC?CCCCATGATG?TGATTCAAAA?CTGATGTATA?TTAGCTGATG?TTCCCAATCA?3840

3841?TACGGAGCTT?TGCTCCCCCG?GTGTGATTTT?AACTTGCAAT?CTGACGTTAG?ATGTTCAAGC?3900

3901?ATATTGAAAC?TGCTTGTGCT?GTAACTTGTA?TTCATGATGT?AACCGAAAGA?TGTCCGCTAT?3960

3961?GGTAAATGAA?GACATGTCAT?TTTTCGTTCT?CCAAAAAAAA?AAAAAAAAAA?AA 4012

2. the function of a grow wheat TaGI1 gene according to claim 1 is characterized in that this gene overexpression in Arabidopis thaliana, can promote the transgenic arabidopsis early flowering.

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