CN112280893B - Molecular marker of wheat yield related gene TaD11-2A and application thereof - Google Patents

Abstract

The invention belongs to the field of plant variation or genetic engineering, and discloses a wheat yield related geneTaD11‑2AThe molecular marker is TaD11-ID3, specific primers of the molecular marker TaD11-ID3 are TaD11-ID3-1F and TaD11-ID3-1R, and the sequence of the TaD11-ID3-1R is shown as SEQ ID NO: 1, the TaD11-ID3-1F has a sequence shown in SEQ ID NO: 2, respectively. The invention is to dig from the wheat natural populationTaD11‑2AThe excellent allele of the gene provides a relevant functional molecular marker for identifying the wheat ear length, the number of spikelets and the number of grains per ear, and provides gene resources and an effective way for genetic improvement of wheat yield traits.

Description

Wheat yield related geneTaD11-2AMolecular marker of (1) and application thereof

Technical Field

The present invention belongs to a plant varietyThe field of XOR genetic engineering, in particular to a gene related to wheat yieldTaD11-2AAnd applications thereof.

Background

Wheat (A), (B)Triticum aestivumL.) is the most important food crop in the world, providing 20% energy to humans. The need to improve crop yields to accommodate global population increases and social growth is still the current mainstream (sentihold Asseng et al, 2020). The traditional breeding identification phenotype has large workload, high cost and overlong period, and the development of gene functional markers provides a reliable molecular marker toolbox for the genetic improvement of wheat and the development of new germplasm, thereby reducing the cost to the maximum extent (Rasheet et., 2016).

Brassinosteroids (BRs) are novel plant endogenous hormones, and play an important role in promoting crop growth and increasing crop yield.OsD11Is a key gene of BR biosynthesis pathway in rice, and research finds thatOsD11Can obviously improve the grain size and the yield of the single plant (Wu et al, 2016). However, wheat has not been found yetTaD11The functional research report of gene and the application of molecular marker.

Disclosure of Invention

Aiming at the defects in the prior art, the invention aims to provide a gene related to wheat yieldTaD11-2AThe molecular marker and the application thereof provide gene resources and effective ways for genetic improvement of wheat yield traits.

To achieve the above objects, one aspect of the present invention provides a gene related to wheat yieldTaD11-2AThe molecular marker adopts the following technical scheme:

wheat yield related geneTaD11-2AThe molecular marker is TaD11-ID3, specific primers of the molecular marker TaD11-ID3 are TaD11-ID3-1F and TaD11-ID3-1R, and the sequence of the TaD11-ID3-1R is shown as SEQ ID NO: 1, the TaD11-ID3-1F has a sequence shown in SEQ ID NO: 2, respectively.

In another aspect of the present invention, the wheat yield-related gene is providedTaD11-2AApplication of molecular marker in identification of wheat yield traits。

The invention also provides a wheat flourTaD11-2APrimers designed from genome sequences are used for amplification sequencing, and the primers are SeqD11-2A-1F and SeqD11-2A-1R, SeqD11-2A-2F and SeqD11-2A-2R, and the sequences of SeqD11-2A-1F, SeqD11-2A-1R, SeqD11-2A-2F and SeqD11-2A-2R are respectively shown as SEQ ID NO: 3-SEQ ID NO: and 6.

The above-mentionedTaD11-2AThere are 3 SNPs and 1 3-bp InDel in the gene region sequence, and 2 haplotypes Hapl a and Hapl b are present.

Further, theTaD11-2A3 SNPs in the gene region sequence and 1 3-bp InDel locus are completely cosegregated.

The above-mentionedTaD11-2AThe genome sequence is shown as SEQ ID NO: shown at 7.

The invention is to dig from the wheat natural populationTaD11-2AThe excellent allele of the gene provides a relevant functional molecular marker for identifying the wheat ear length, the number of spikelets and the number of grains per ear, and provides gene resources and an effective way for genetic improvement of wheat yield traits.

Drawings

FIG. 1 is a drawing ofTaD11-2ASchematic diagram of gene region variation;

FIG. 2 shows the partial detection results of TaD11-ID3 on denaturing polyacrylamide gel.

Detailed Description

The present invention will be described in detail with reference to specific examples. The following examples will assist those skilled in the art in further understanding the invention, but are not intended to limit the invention in any way. It should be noted that variations and modifications can be made by persons skilled in the art without departing from the spirit of the invention. All falling within the scope of the present invention.

The experimental procedures used in the following examples are conventional unless otherwise specified.

Example 1: wheat yield related geneTaD11-2AObtaining polymorphic sites

According to wheatTaD11-2ADesigning specific primers for genome sequence to carry out amplification sequencing, wherein the primers are used for amplification sequencingThe compounds are SeqD11-2A-1F and SeqD11-2A-1R, and SeqD11-2A-2F and SeqD11-2A-2R, wherein the sequences of SeqD11-2A-1F, SeqD11-2A-1R, SeqD11-2A-2F and SeqD11-2A-2R are respectively shown as SEQ ID NO: 3-SEQ ID NO: and 6.

The specific primer sequences are as follows:

SeqD11-2A-1F AATGATAGCTAGACAGAGAGGCA

SeqD11-2A-1R TCTGAAGGGTCACATATTTGGT

SeqD11-2A-2F TCCACCAAATATGTGACCCTT

SeqD11-2A-2R TTCATACATATCTCCCCATAACG

(1) the DNA of 60 wheat materials (all from the national germplasm resource pool) in Table 1 was amplified by PCR using specific primers (SeqD 11-2A-1F/1R, SeqD 11-2A-2F/2R) in a 50ml system comprising 5ml of DNA, 2.5ml of upstream primer, 2.5ml of downstream primer, 25ml of Phanta Max Super-Fidelity DNA Polymerase, 15ml of ddH₂0；

The method adopts a common amplification program for amplification and comprises the following steps:

1) denaturation is carried out for 5min at the temperature of 95 ℃,

2) common PCR program for 34 cycles: denaturation at 95 ℃ for 30s, renaturation at 58 ℃ for 30s, and extension at 72 ℃ for 2 min;

3) extending for 10 min at 72 ℃; after completion of amplification, the cells were stored at 4 ℃.

Table 160 parts of common wheat varieties

(2) And (3) performing gel cutting recovery on the target fragment, and performing bidirectional one-generation sequencing on the recovered product by utilizing SeqD11-2A-1F/1R, SeqD11-2A-2F/2R primers. Through the discovery of the sequence analysis, the method has the advantages of simple process,TaD11-2Athere are 3 SNPs and 1 3-bp InDel in the gene region sequence, and 2 haplotypes Hapl a and Hapl b in total (as shown in FIG. 1).

Example 2: wheat yield related geneTaD11-2ADevelopment of molecular markers and haplotype identification

(1) Development of molecular markers

TaD11-2AThe sequence of (1) is completely separated from 3 SNPs and 1 3-bp InDel locus, a new specific primer is designed according to the 3-bp InDel and is marked as TaD11-ID3, the specific primers of the molecular marker TaD11-ID3 are TaD11-ID3-1F and TaD11-ID3-1R, the sequence of the TaD11-ID3-1R is shown as SEQ ID NO: 1, the TaD11-ID3-1F and TaD11-ID3-1R have the sequences shown in SEQ ID NO: 2, the concrete steps are as follows:

TaD11-ID3-1F GCTCGTACCACCACACCAC

TaD11-ID3-1R CCCGCATTGCAAAGATCC

(2) identification of haplotypes

Selecting a natural population (table 2) consisting of 190 parts of common hexaploid wheat, and carrying out genotype identification on the natural population by using the molecular marker TaD11-ID3, wherein the method comprises the following steps:

1) performing PCR amplification on the DNA of the wheat variety to be detected by using a labeled primer, wherein the PCR amplification system is 10 mu l, and comprises the following steps: mu.l of DNA template, 0.5. mu.l of upstream primer, 0.5. mu.l of downstream primer, 5. mu.l of 2 XTAQQ PCR StarMix, 3. mu.l of ddH 2O;

the method adopts a common amplification program for amplification and comprises the following steps:

a) denaturation is carried out for 5min at the temperature of 95 ℃,

b) common PCR program for 34 cycles: denaturation at 95 deg.C for 30s, renaturation at 50 deg.C for 30s, and extension at 72 deg.C for 1min;

c) extending for 10 min at 72 ℃; after completion of amplification, the cells were stored at 4 ℃.

2) The 5% denatured polyacrylamide gel means that 100ml of polyacrylamide gel solution contains 4.75g of acrylamide, 0.25g of methylene acrylamide and 45g of urea, and the results of partial electrophoresis are shown in FIG. 2, and all the identification results are shown in Table 2.

TABLE 2 typing results for marker TaD11-ID3 in the Natural population

Example 3: association analysis of haplotype and yield traits

The GLM (PCA) model of software TASSEL 5.2 is utilized to combine genotype data (55K chip + TaD11-ID3 genotype) and phenotype data of natural population under 2 years (2018-. As a result, it was found that the ear length, the number of spikelets and the number of grains per ear of the Hapl b type were significantly increased (P < 0.05) relative to the Hapl a type (Table 3), and the average increase ratios were 8.5% (ear length), 5.8% (number of spikelets) and 8.0% (number of grains per ear), respectively. The above results show that Hapl b type isTaD11-2AThe excellent genotype of the gene, TaD11-ID3 marker, can play a role in breeding wheat with excellent yield traits.

The above-mentionedTaD11-2AThe genome sequence is shown as SEQ ID NO: shown at 7.

TABLE 3TaD11-2AGene haplotype and yield character correlation analysis result

Note: p < 0.01, P < 0.05.

The foregoing description of specific embodiments of the present invention has been presented. It is to be understood that the present invention is not limited to the specific embodiments described above, and that various changes and modifications may be made by one skilled in the art within the scope of the appended claims without departing from the spirit of the invention.

<110> university of Ludong

<120> molecular marker of wheat yield related gene tad11-2a and application thereof

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gctcgtacca ccacaccac 19

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tccacca aatatgtgac cctt 21

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ttcata catatctccc cataacg 23

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gagagagaga agcagagggc gagcaagtga atgatagcta gacagagagg caaggcatgg 60

caggctccat gcagcttgtg agatgtaact aggtagggtg gggcggcggc ggcggcggtg 120

gtgtggtggt acgagcatga tggtgggggt gggcgatctt gtgctggctg ctccggcgat 180

cctgctcgcc ttgctcctga ctctggtgct gagccacttc ctgcctttgc tcctcaaccc 240

caaggctccg aggggcagct ttggatggcc ccttgtcggc gagaccctca ggttcctcac 300

ccctcacgcc tccaacacgc tgggtagctt cctggaggat cactgctcca ggtactttta 360

ttttcttctt cttttttgtt atcattcacc acagccacac cacacctcaa gatttctcca 420

cgatgcaatc aagcacgtag tattgtttat catttactca tgtggcagca aaagatgatg 480

catgtcgtgc atgttgtcct gactcagcac ctttatcttc ctgtctttgc tccaaggctg 540

tgatatattt gaatttctac aggttttgtg cacagaacct gtttctgaaa aagttttacc 600

tattgttttg tgggggagag aggatggaaa gatctcataa gaccccctat caaatgatgg 660

caacttaaca acatgaaaaa agatctaaca ttgcagttga tgtgatgatg atgcaggtat 720

gggagggtgt tcaagtccca tctgttctgc acccccaccg tagtgtcctg tgaccaggag 780

ctgaaccact tcatcctgca gaatgaggag aggttgttcc agtgcagcta ccccaggcca 840

attcatggca tactgggcaa gtcctccatg ctggtggtcc tcggggagga ccacaagcgg 900

ctcaggaacc ttgctctggc cctcgtcacc tccaccaagc tcaagccaag ctaccttggc 960

gacattgaga ggattgcgct gcacatagtc gggtcatggc acggcaaggg cggcagcatc 1020

accttctgcg aggaggcaag aaaggttggt ctccccgtgc atgcactaac tacaaccaaa 1080

gctggctagg catgcatcag tagggacatg atcccgtcaa acatggacga aaaactctgc 1140

acatgttacc tatggctaca tcatcatgct gttacttgct gatgcatcat cacatatttt 1200

ttcaaacgct ggctttgact taccagggtc attcttctcc gtattttgac tctctttttc 1260

tgactttttt tttcctttgg cacagtttgc gttcagtgtg atagtgaagc aggtgctggg 1320

gctgtcgcca gaggagcctg tcactgccat gatactggag gacttcctca ccttcatgaa 1380

gggcctcatc tctttccctc tccgcatccc agggacccca tacgccaaag ctgtccaggt 1440

aactaagtaa acaactctgg aataccacct tcttaaactg tcaaagtttc cagcacttct 1500

tatctacttc accatgcatc aggctcatga aactctggta tatattgttc taacactgac 1560

tgaggttctt gggtatgccg atcattcctc acaggccaga gagaggatat caagcactgt 1620

gaagggcatt atcgaggaga ggaggaaggc tgactgctgc aagagggatg atttcctcaa 1680

cgtgctcctg tcaaccgatg aactctctga cgaggagaaa gtgagctttg tgctggactc 1740

cctgctagga ggatacgaga ccacctcact catgatctcc atggtcgtct acttccttgg 1800

gcagtcagct caagatctgg acctagtgaa ggtacataca tacctgatca agcttaagcc 1860

acaggtgatt ggtggttgcg tgcatgtgtc acttattata tatgaacatg ctgtgcatgc 1920

agagggagca tcaaggcata agatctacca aagcaaagga ggagtgcttg agctctgagg 1980

actacaagaa gatggaatat acccaacatg taagtaagat gatgatcatt cagtacacgc 2040

tttaggatat gtagccggtt ggtaagcagg gatccttttt tctttctatt atcagacatc 2100

caccaaatat gtgacccttc agaatttatg ttttttctgt ccgtatgcct gcctatatct 2160

ggaattttga ctagagcaaa caacactttg caagaacagt gcaaatgggg aaggaagggt 2220

ctcttaattt gttctgtaat aattggaatg gttcaatgat acatacatac atgcgtggat 2280

gtcctttcag gttatcaatg aggcgctgag atgtggaaac attgtcaagt ttgtccacag 2340

gaaggccctc aaagatgtca gatacaaagg taattaaccc tgctagtact tggggctttc 2400

ccagcagatc ccattgtgct catcacatga taatggatca ggcaaagggg gcggttgggc 2460

ctttattgct gatttgtgag cattgttatt cctaaacacc tagcttttga tagaagatgc 2520

tcaaaagcaa gtggacctct tcttttgctc tgttgcagag tatctgattc catctggctg 2580

gaaggtccta cctgttttca gtgctgttca tttgaacccc tcgcttcatg gaaatgccca 2640

acagtttcag ccttgcagat gggaggtatg tctgatttcc ataccatgtg cacgggcatc 2700

tatatttgta gtcaagtaat gaatacatct tagtttatgc agattagctt taatataata 2760

tgcttgttta gggaagccta actttgacat aatatgcttt ttatgaacta ttttatacaa 2820

tgaaaaggtg agaacaaatc agaagagctt atctgtagct ttgagagaat cttctttaag 2880

gttgctctgt taactaattg atgcctttaa ttagtgagtg tccaactaac ccatgccata 2940

ataattactt gcaactatcc tggtatcttc agatgccaag caggctttgg ctgagggcct 3000

agtgccttct gtacatggtc ctaaccatga ttcctcactc aaagccagca tccttggctt 3060

tgcttcttca ttttcttaac tcccttgatg aagctagctc atatgcatga cttgtacaat 3120

tgattgatgc aacagggccc aagccaaggt acaagcaaga agtttacacc attcggcggt 3180

ggcaccaggc tctgccctgg atcagagctt gccaaagtag aggctgcttt cttcctccat 3240

caccttgtgc tcaatttcag gtaaaacatt tctcctagcc gattaagaga tacacatgta 3300

gcaactaacg cagcaagagc aacaaatcgg agaaacgaag aacctaaata ttttgtaagg 3360

ataaatcaac ttaagaatga aattaaccag aggaaatatg aatagcatga ccacagattg 3420

atgcagtctc atactagtgg agatgctctg caaacatggc agcatggagt atccaataag 3480

tatggcatgc aagttgagtg gtaccaaatc tggtccatag atatctgcag ttatcagatt 3540

gtgacagaag aaaatgcatc tccctctact ttttttcaga gcaaggagat aagtgcttac 3600

tgaatctcta tagttactga tcatggtata atttggcacc ctgcagatgg aaaatcgatg 3660

gcgatgacat tccaatggca tacccgtacg tggagttccc gagaggcctg ccgatagaaa 3720

tcgagccgat ttgctctgaa tcttgactgg gttcttgcag ctgcaaacat ggcggtgagt 3780

gaaaaaagag attgcaagca gtgaagcgaa gaagcaccga tgactagctt agcttagcta 3840

gttcctggaa tggggtagct gaggaggttg tgatctcctc tgtacatggt gtacatatat 3900

tttgtccatt gtgattactt gaggtggttg ggtcaccctg ttacatcctc cactgtctgg 3960

actactatcc tatagaaaaa aaatgggctc ctggtgttta catttacttc tgaaattcgt 4020

tatggggaga tatgtatgaa ccggacctc 4049

Claims (4)

1. Wheat yield related geneTaD11-2AThe molecular marker is TaD11-ID3, specific primers of the molecular marker TaD11-ID3 are TaD11-ID3-1F and TaD11-ID3-1R, and the sequence of the TaD11-ID3-1R is shown as SEQ ID NO: 1, the TaD11-ID3-1F has a sequence shown in SEQ ID NO: 2 is shown in the specification;

the above-mentionedTaD11-2AThe genome sequence is shown as SEQ ID NO: shown at 7.

2. Wheat yield-related gene according to claim 1TaD11-2AThe molecular marker of (a) is applied to identification of wheat yield traits, wherein the wheat yield traits comprise wheat spike length, number of spikelets and number of grains per spike.

3. As shown in SEQ ID NO: 7 is shown inTaD11-2AGene characterized by the presence of 3 SNPs and 1 3-bp InDel, for a total of 2 haplotypes, Hapl a and Hapl b.

4. The method of claim 3TaD11-2AThe gene of (1), wherein 3 SNPs and 1 SNP in the sequenceThe 3-bp InDel sites were completely cosegregated.

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