RU2022104491A - GENETIC LOCI ASSOCIATED WITH DISEASE RESISTANCE IN SOYBEAN PLANTS - Google Patents

Claims (29)

1. An elite plant Glycine max containing a chromosomal interval introduced into its genome from the line Glycine clandestina, selected from a group of lines consisting of lines with accession numbers PI339656, PI591576 or their descendant, where the specified chromosomal interval confers increased resistance to Asian soybean rust (ASR ) compared to a control plant that does not contain the specified chromosomal interval. 2. The plant according to claim 1, where the chromosomal interval contains SEQ ID NO: 1 or part thereof. 3. Plant according to paragraphs. 1-2, wherein the chromosomal interval contains a SNP marker associated with increased resistance to ASR, wherein said SNP marker corresponds to any of the favorable SNP markers listed in Table 1. 4. Plant according to paragraphs. 1-3, where the chromosomal interval is derived from chromosome 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15, 16, 17, 18, 19 or 20 Glycine clandestina. 5. Plant according to paragraphs. 1-4, where the chromosomal interval corresponds to the position in the genome of Glycine clandestina, which corresponds to SEQ ID NO: 1. 6. A descendant or seed of a plant according to any one of paragraphs. 1-5. 7. Plant cell or part of a plant obtained from a plant according to claims. 1-6. 8. Plant according to paragraphs. 1-7, wherein the plant further demonstrates resistance to any of the stresses selected from diseases (such as powdery mildew, root rot caused by Pythium ultimum and Phytophthora, leaf spot, blast, brown spot, root nodule nematode infestation, soybean cyst nematode infestation, soybean vein necrosis virus, soybean stem canker, soybean sudden death syndrome, leaf and neck smut, rust, selenophoma leaf spot, brown stem rot, Fusarium disease, or epidermal disease); exposure to insect pests (such as whiteflies, aphids, gray field slugs, sugarcane stem borers, grass aphids or plant aphids); abiotic stress (such as tolerance to drought, flooding, high salinity, heavy metals, aluminum, manganese, cadmium, zinc, UV-B, boron, iron deficiency chlorosis, or tolerance to cold (i.e. exposure to extreme temperatures)) . 9. An elite soybean plant containing an ASR resistance allele that confers increased ASR resistance, wherein the ASR resistance allele contains at least one single nucleotide polymorphism (SNP) selected from the group of “favorable” SNPs described in Table 1. 10. An elite soybean plant containing a chromosomal interval from Glycine clandestina containing at least one favorable SNP marker selected from Table 1. 11. The plant of claim 10, wherein Glycine clandestina is any of PI339656 or a descendant thereof. 12. A method for producing a Glycine max plant with increased resistance to ASR, where the method includes the steps of: a. obtaining a plant line of Glycine clandestina or its descendant, providing a chromosomal interval corresponding to SEQ ID NO: 1; b. implementing a method for rescuing embryos essentially described in Example 3 or described in US Pat. No. 7,842,850, or using genetic engineering methods; c. collecting seeds obtained as a result of the method in b); d. regeneration of plants from seeds from c). 13. The method according to claim 12, wherein the Glycine clandestina plant line from a) is PI339656, PI591576 or a descendant thereof. 14. A method for identifying or selecting a soybean plant containing an ASR resistance allele derived from Glycine clandestina, where the method includes the steps of: a. isolating nucleic acid from the soybean plant; b. identifying in the nucleic acid the presence of a molecular marker that is associated with increased resistance to ASR, where the molecular marker is located within 20 cM, 10 cM, 5 cM, 1 cM, 0.5 cM from the marker described in table 1; And c. identifying or selecting thereby a soybean plant containing an ASR resistance allele derived from Glycine clandestina. 15. A plant of the Glycine max species, wherein a portion of the plant genome is derived from a wild species of the genus Glycine through the use of chemically induced chromosome doubling, and wherein said portion imparts increased resistance to ASR to the plant compared to a control plant not containing the portion. 16. A plant of the species Glycine max, wherein the genome of the plant contains a chromosomal interval that confers increased resistance to ASR compared to a control plant that does not contain the interval, wherein said chromosomal interval is introduced into a plant from a wild species of the genus Glycine, and wherein said plant with the indicated chromosomal interval is obtained by chemically induced doubling of the number of chromosomes. 17. The plant according to claim 16, where the chromosomal interval is introduced from the plant line Glycine clandestina. 18. Plant according to any one of paragraphs. 16-17, wherein the plant line Glycine clandestina is one of the lineages accession numbers PI339656, PI591576, or a descendant thereof. 19. Plant according to any one of paragraphs. 16-18, where the chromosomal interval is introduced from chromosome 14 of Glycine clandestina. 20. Plant according to any one of paragraphs. 16-19, wherein the chromosomal interval corresponds to a position in the genome of Glycine clandestina that corresponds to SEQ ID NO: 1 or a portion thereof. 21. A descendant or seed of a plant according to any one of paragraphs. 16-20. 22. Plant cell or part of a plant obtained from a plant according to claims. 16-21.