Validation of Microsatellite Markers of Pl Resistance Genes to Downy Mildew of Sunflower
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A. Solodenko
Abstract
Simple sequence repeats (SSR) polymorphism of 34 microsatellite loci (LG1, 8 and 13) was studied in lines carrying the downy mildew resistance genes Pl and lines with no Pl. The microsatellite loci ORS328 and ORS781 were selected as markers for genes Pl6 and Pl8 in lines HA 335 and QHP-1, respectively. Markers were identified for gene PlARG in RHA 419 and some accessions of H. argophyllus. The SSR markers ORS509, ORS605, ORS610, ORS1182 and ORS1039 were proven to reliably identify the parental line carrying PlARG gene, control and select the heterozygous F1 hybrids and identify homozygous genotypes in F2 generations. Obtained results indicate the necessity of validation of the markers in various germplasm pools and breeding collections. The SSR markers that are tightly linked to Pl6, Pl8, PlARG would be useful in the sunflower breeding. PlARG homozygous F2 segregants, developed and identified with marker assisted selection in this study, are recommended for further breeding as a new source of genetically determined resistance to downy mildew.
References
Abratti, G., Bazzalo, M.E., Grondona, M., 2004. Mapping a rust resistance gene and the downy mildew Pl8 gene in sunflower. In: Proceedings of 16th International Sunflower Conference, Fargo, North Dacota, USA, pp. 615–622.Suche in Google Scholar
Ajaala, F., 1984. Population and Evolutionary Genetics: A Primer, Mir, Moscow, pp. 232. (in Russian).Suche in Google Scholar
Davar, R., Darvishzaden, R., Majd, A., Ghosta, Y., Sarrafi, A., 2010. QTL mapping of partitial resistance to basal stem rot in sunflower using recombinant inbred lines. Phytopatol Mediterranean 49: 330–341.Suche in Google Scholar
Doyle, J.J., Doyle, J.L., 1987. A rapid DNA isolation procedure for small quantities of fresh leaf tissue. Phytochemical Bulletin 19: 11–15.Suche in Google Scholar
Duble, C., Hahn, V., Knapp, S., Bauer, E., 2004. PlARG from H. argophyllus is unlinked to other known downy mildew resistance genes in sunflower. Theoretical and Applied Genetics 109: 1083–1086.10.1007/s00122-004-1722-9Suche in Google Scholar PubMed
Gegil, M., Slabaugh, M., Berry, S., 2001. Candidate disease resistance genes in sunflower cloned using conserved NBS motifs: Genetic mapping and linkage to the downy mildew resistance gene Pl1. Genome 44(2): 205–212.10.1139/g00-110Suche in Google Scholar PubMed
Gulya, T.J., 2007. Distribution of Plasmopara halstedii races from sunflower around the world. In: Lebeda, A., Spencer-Phillips, P.T.N. (eds.) Advances in Downy Mildew Research Proceedings of 2nd International Downy Mildew Symposium, Olomouc, Czech. Republic, Palacky University and JOLA, Kastelec na Hane, Czech Republic, pp. 121–134.Suche in Google Scholar
Gupta, P.K., Varshney, R.K., 2000. The development and use of microsatellite markers for genetic analysis and plant breeding with emphasis on bread wheat. Euphytica 113: 163–185.10.1023/A:1003910819967Suche in Google Scholar
Heesacker, A., Kishore, V.K., Gao, W., Tang, S., Kolkman, J.M., Gingle, A., Matvienko, M., Kozik, A., Michelmore, R., Lai, Z., 2008. SSRs and INDELs mined from the sunflower EST database: Abundance, polymorphisms and cross-taxa utility. Theoretical and Applied Genetics 117: 1021–1029.10.1007/s00122-008-0841-0Suche in Google Scholar PubMed
Jan, C.C., Fernandez-Martinez, J.M., Ruso, J., Munoz-Ruz, J., 2002. Registration of four sunflower germplasms with resistance to Orobanche cumana race F. Crop Sciences 42: 2217–2218.10.2135/cropsci2002.2217Suche in Google Scholar
Jan, C.C., Tan, A.S., Gulya, T.J., 2004. Registration of four downy mildew resistant sunflower germplasms. Crop Science 44: 1887.10.2135/cropsci2004.1887Suche in Google Scholar
Jocić, S., Cvejić, S., Hladni, N., Miladinović, D., Miklič, V., 2010. Development of sunflower genotypes resistant to downy mildew. Helia 33(53): 173–180.10.2298/HEL1053173JSuche in Google Scholar
Miller, J., Gulya, T., Seiler, G., 2002. Registration of five fertility restorer sunflower germplasms. Crop Science 42: 989–991.10.2135/cropsci2002.0989Suche in Google Scholar
Miller, J.F., Gulya, T.J., 1991. Inheritance of resistance to race 4 of downy mildew derived from interspecific crosses in sunflower. Crop Science 31: 40–43.10.2135/cropsci1991.0011183X003100010009xSuche in Google Scholar
Miller, J.F., Seiler, G.J., 2003. Registration of five oilseed maintainer (HA 429-Ha 433) sunflower germplasm lines. Crop Science 43: 2313–2314.10.2135/cropsci2003.2313Suche in Google Scholar
Mulpuri, S., Liu, Z., Femg, J., 2009. Inheritance and molecular mapping of a downy mildew resistance gene, Pl13 in cultivated sunflower (Helianthus annuus L.). Theoretical and Applied Genetics 119: 795–803.10.1007/s00122-009-1089-zSuche in Google Scholar PubMed
Paniego, N., Eschaide, M., Munoz, M., Fernandez, L., Torales, S., Faccoi, P., Fuxan, I., Carrera, M., Zandomeny, R., Suarez, E., Hopp, H., 2002. Microsatellite isolation and characterization in sunflower (Helianthus annuus L.). Genome 45: 34–43.10.1139/g01-120Suche in Google Scholar PubMed
Panković, D., Radovanović, N., Jocić, S., Šatović, Z., Škorić, D., 2007. Development of co-dominant amplified polymorphic sequence markers for resistance of sunflower to downy mildew race 730. Plant Breeding 126(4): 440–444.10.1111/j.1439-0523.2007.01376.xSuche in Google Scholar
Qi, L.L., Long, Y.M., Ma, G.J., Markell, S.G., 2015. Map saturation and SNP marker development for the rust resistance genes (R4, R5, R13a, and R13b) in sunflower (Helianthus annuus L.). Molecular Breeding 35: 196–220.10.1007/s11032-015-0380-8Suche in Google Scholar
Radwan, O., Bouzidi, M., Vear, F., Philippon, J., Tourvieille De Labrouche, D., Nicolas, P., Mouzeyar, S., 2003. Identification of non-TIR-NBS-LRR markers linked to Pl5/Pl8 locus for resistance to the downy mildew in sunflower. Theoretical and Applied Genetics 106: 1438–1446.10.1007/s00122-003-1196-1Suche in Google Scholar PubMed
Seiler, G., Christie, B., Choo, T., 1991. Registration of 13 downy mildew tolerant interspecific sunflower germplasm lines derived from wild annual species. Crop Science 31: 1714–1716.10.2135/cropsci1991.0011183X003100060093xSuche in Google Scholar
Solodenko, A.Y., Varenyuk, B.F., Alexandrova, O.Y., Sivolap, Y.M., 2013. Race composition of downy mildew and resistance of sunflower lines. PBGI Scientific Papers Digest 22(62): 117–123. (In Ukrainian).Suche in Google Scholar
Talia, P., Nishinakamasu, V., Hopp, H.E., Heinz, R.A., Paniego, N., 2010. Genetic mapping of EST-SSR, SSR and InDel to improve saturation of genomic regions in previously developed sunflower map. Electronic Journal Biotechnology 13: 1–14.10.2225/vol13-issue6-fulltext-14Suche in Google Scholar
Tang, S., Heesacker, A., Kishore, V.K., Fernandez, A., Sadik, E.S., Cole, G., Knapp, S.J., 2003. Genetic mapping of the Or 5 gene for resistance to Orobanche race E in sunflower. Crop Science 43: 1021–1028.10.2135/cropsci2003.1021Suche in Google Scholar
Tang, S., Yu, J.K., Slabaugh, M.B., Shintani, D.K., Knapp, S.J., 2002. Simple sequences repeat map of the sunflower genome. Theoretical and Applied Genetics 105: 1124–1136.10.1007/s00122-002-0989-ySuche in Google Scholar PubMed
Wieckhorst, S., Bachlava, E., Duble, C., Tang, S., Gao, W., Saski, C., Knapp, S., Schön, C.-C., Hahn, V., Bauer, E., 2010. Fine mapping of the sunflower resistance locus PlARG introduced from the wild species Helianthus argophyllus. Theoretical and Applied Genetics 121: 1633–1644.10.1007/s00122-010-1416-4Suche in Google Scholar PubMed PubMed Central
Yu, J., Tang, S., Slaubaugh, M.B., Heesacker, A., Cole, G., Herring, M., 2003. Towards a saturated molecular genetic linkage map for cultivated sunflower. Crop Science 43: 367–387.10.2135/cropsci2003.3670Suche in Google Scholar
© 2018 Walter de Gruyter GmbH, Berlin/Boston
Artikel in diesem Heft
- Frontmatter
- Review Paper
- Chao-Chien Jan: Thirty-five Years of Dedicated Research Utilizing Wild Sunflower Crop Relatives for Sunflower Improvement
- Research Articles
- Helianthus porteri, a Granite Outcrop Endemic, Does Not Have More Drought Resistant Traits Than Congeners
- Effect of Sclerotinia sclerotiorum on Sunflower Seeds Quality
- Genomic Evaluation of Sunflower Broomrape (Orobanche Cumana) Germplasm by KASP Assay
- Validation of Microsatellite Markers of Pl Resistance Genes to Downy Mildew of Sunflower
- Selection for Some Functional Markers for Adaptability of Helianthus argophyllus × Helianthus annuus Derived Population under Abiotic Stress Conditions
- Inheritance of Basal Branching in Sunflower
- Diversity of Fungi in Rhizoplane, Rhizosphere and Edaphosphere of Sunflower at Different Stages of its Development
- Performance and Water-Use Efficiency of Wild Cytoplasmic Sources in Sunflower
Artikel in diesem Heft
- Frontmatter
- Review Paper
- Chao-Chien Jan: Thirty-five Years of Dedicated Research Utilizing Wild Sunflower Crop Relatives for Sunflower Improvement
- Research Articles
- Helianthus porteri, a Granite Outcrop Endemic, Does Not Have More Drought Resistant Traits Than Congeners
- Effect of Sclerotinia sclerotiorum on Sunflower Seeds Quality
- Genomic Evaluation of Sunflower Broomrape (Orobanche Cumana) Germplasm by KASP Assay
- Validation of Microsatellite Markers of Pl Resistance Genes to Downy Mildew of Sunflower
- Selection for Some Functional Markers for Adaptability of Helianthus argophyllus × Helianthus annuus Derived Population under Abiotic Stress Conditions
- Inheritance of Basal Branching in Sunflower
- Diversity of Fungi in Rhizoplane, Rhizosphere and Edaphosphere of Sunflower at Different Stages of its Development
- Performance and Water-Use Efficiency of Wild Cytoplasmic Sources in Sunflower
