Molecular biological differentiation method aiming at genders of asparagus dioecian plants and application of molecular biological differentiation method
A molecular biology and dioecious technology, which is applied in the field of molecular biology identification of the sex of asparagus dioecious plants, can solve the problems of inaccurate sex identification of asparagus dioecious plants and the like, and achieves simple and convenient operation. Effect
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Embodiment 1
[0053] Example 1 Primer Design
[0054] Based on the CDS sequence of asparagus SOFF gene, using NCBI / Primer-BLAST combined with Primer Premier5.0 software, we designed and developed four functional STS molecular markers that can identify the sex of asparagus from male to female, named Soff1, Soff2, Soff4, and Soff5 respectively. , and define the forward and reverse primer sequences of each molecular marker, and the corresponding characteristic bands. The details are shown in Table 1.
[0055] Table 1 Characteristics of STS molecular markers of female suppressor gene SOFF in asparagus
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Embodiment 2
[0057] Example 2 Polymorphism Analysis of STS Molecular Markers in Asparagus Germplasm Resources Female and Male DNA Pools
[0058] (1) Test material
[0059] Select 20 germplasm resources of Asparagus in Table 2 as test materials, among which, V1-1 and V1-2 are double haploid plants cultured from asparagus anthers, and the sex-determining loci are all homozygous; V2- V14 is a diploid cultivar of asparagus; V15-V17 is a tetraploid cultivar of asparagus; V15-V17 is a wild species related to Asparagus, which is a representative of dioecious germplasm resources.
[0060] Table 2 Germplasm resources of dioecious plants of the genus Asparagus
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[0063] (2) Construction of female and male DNA pools
[0064] V2-17 randomly selects 5 male plants and 5 male plants according to the variety, takes their pseudo-leaf respectively, mixes them in equal amounts according to the gender of the female and male varieties, extracts DNA, and uses them as the female and male...
Embodiment 3
[0073] Example 3 Genetic linkage analysis of STS molecular markers and asparagus female and male sex phenotypes
[0074] (1) Test material
[0075] The hybrid F 1, hybrid F 1-1 (♂), F 1-2 (♀) Sisters get F 2 The population, with a total of 331 strains, was used as a genetic population for genetic linkage analysis of STS molecular markers and asparagus female and male sex phenotypes.
[0076] (2) DNA extraction
[0077] Take 1-2g of the above F 2 population, and the female parent Tainanxuan No. 3 (TN3), the male parent Xing'an Tianmendong (XA), F 1-1 (♂), F 1-2 (♀) Young pseudo-leaves were ground into powder using a high-throughput tissue grinder, and plant genomic DNA was extracted by the CTAB method.
[0078] (3) PCR amplification system
[0079] The 25mL PCR reaction system is: 10× amplification buffer 2.5μL; MgCl 2 (25mmol·L-1) 2.5μL; dNTPs (1mmol·L-1) 2.5μL; primer (5pmol·L-1) 2μL, template DNA (1.25-20ng·μL-1) 2μL; Taq DNA polymerase (1U ·μL-1) 1μL; add ddH2O t...
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