生物
吸浆虫
数量性状位点
等位基因
遗传学
人口
胆
遗传标记
基因
植物
人口学
社会学
作者
Sahu Nandini,G. Basana Gowda,Rath Ladu Kishore,C. T. A. Kumar,Rameswar Prasad Sah,Mandal Lopamudra,G. Guru Pirasanna Pandi,B. Patil Naveenkumar,Totan Adak,Muthukkaruppan Annamalai,Chandra Rath Prakash
摘要
Abstract Damage caused by insect herbivores, notably Asian rice gall midge, Orseolia oryzae is more prevalent in the rice‐growing belts of India's southern and north‐eastern states. As a prelude to resistant cultivar development, the identification of genomic regions for resistance in the source population is crucial. In the present investigation, 202 rice genotypes were phenotyped and assayed with genomic markers reported for gall midge resistance. Positive skewness and platykurtic distribution of response scores suggested the inheritance of gall midge resistance in the study population. The marker gm3del3 contributed the most genetic variation, followed by RM28574 and marker RM22709 explained minimal variation. A marker‐trait association analysis with a single marker‐trait linear regression approach was performed to discover gall midge resistant genomic region/genes. The marker RM17480 on chromosome 4 reported to be linked with gm3 gene was found significantly associated with the gall midge resistance genomic region with allelic effects in a negative direction favouring resistance reaction. The allelic effects of significantly associated markers were correlated significantly with the phenotypic variation of gall midge damage scores. Genes identified in the vicinity of this marker contribute to stress response reactions in rice plants. The 200 bp allele of the marker was associated with susceptibility, while the 250 bp allele was associated with resistance expression. This allelic association with trait variation suggests the importance of associated marker for utilisation in marker‐assisted selection programmes to incorporate resistance alleles into elite rice genotypes.
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