Parental Polymorphic Survey between Rice Varieties (Oryza sativa L.) for Phosphorus Starvation Tolerance Gene by Using SSR Markers

G. Kavitha, R. M, Senguttuvel, P. M. R. D., Reddy V. L. N., Kalyani M. B., S. P
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Abstract

Insufficient soil phosphorus has been the most important factor affecting rice yield under the rice grown conditions. KMR-3R is a popular restorer line used for commercial rice hybrids production. For majority of the rice ecosystems, most of the rice hybrids released using three line systems were suited for normal phosphorus conditions only which exhibits severe yield reduction under low phosphorus conditions. To facilitate the efficient use of complex polygenic traits in hybrid rice, molecular breeding approaches were developed using KMR-3R BILs with Pup1 QTL by introgression of major QTL Pup1 controlling genes yield under low phosphorus stress. Parental polymorphic survey is a pre requisite before starting marker assisted backcrossing, it is used for introgression of a desirable traits from a donor genotype into a recipient genotype. In this context, I have screened all reported SSR primers linked to low phosphorus tolerance and observed K-46-1 and K-46-2 linked to Pup1 QTL was polymorphic between Kasalath and KMR-3R. Simultaneously I have screened 300 full-genotype SSR markers covering entire genome and observed 86 SSR primers as polymorphic between Kasalath and KMR-3R. After polymorphic survey, I have evaluated Kasalath and KMR-3R.under low phosphorus stress and normal phosphorus conditions and recorded significant differences among the parents. Kasalath performed well when compared to KMR-3R for all the characters studied under low phosphorus stress conditions. With the generated genotypic data, a linkage map can be constructed which will further ensues the identification of a new markers linked to low phosphorus stress.
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利用 SSR 标记进行水稻品种(Oryza sativa L. )耐磷基因的亲本多态性调查
在水稻种植条件下,土壤磷含量不足是影响水稻产量的最重要因素。KMR-3R 是用于商业水稻杂交种生产的常用恢复系。在大多数水稻生态系统中,使用三系法育成的水稻杂交种大多只适合正常磷含量条件,在低磷条件下会出现严重减产。为促进杂交水稻复杂多基因性状的有效利用,通过导入控制低磷胁迫下产量基因的主要 QTL Pup1,开发了带有 Pup1 QTL 的 KMR-3R BIL 分子育种方法。亲本多态性调查是开始标记辅助回交前的必要条件,用于将供体基因型的理想性状导入受体基因型。在这种情况下,我筛选了所有报道的与低磷耐受性相关的 SSR 引物,观察到与 Pup1 QTL 相关的 K-46-1 和 K-46-2 在 Kasalath 和 KMR-3R 之间存在多态性。同时,我还筛选了覆盖整个基因组的 300 个全基因型 SSR 标记,观察到 86 个 SSR 引物在 Kasalath 和 KMR-3R 之间具有多态性。在多态性调查之后,我对 Kasalath 和 KMR-3R 在低磷胁迫和正常磷条件下的表现进行了评估,并记录了亲本之间的显著差异。与 KMR-3R 相比,Kasalath 在低磷胁迫条件下的所有特征都表现良好。利用生成的基因型数据,可以构建一个连接图谱,从而进一步确定与低磷胁迫相关的新标记。
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