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Genetic dissection of heterosis using epistatic association mapping in a partial NCII mating design.


ABSTRACT: Heterosis refers to the phenomenon in which an F1 hybrid exhibits enhanced growth or agronomic performance. However, previous theoretical studies on heterosis have been based on bi-parental segregating populations instead of F1 hybrids. To understand the genetic basis of heterosis, here we used a subset of F1 hybrids, named a partial North Carolina II design, to perform association mapping for dependent variables: original trait value, general combining ability (GCA), specific combining ability (SCA) and mid-parental heterosis (MPH). Our models jointly fitted all the additive, dominance and epistatic effects. The analyses resulted in several important findings: 1) Main components are additive and additive-by-additive effects for GCA and dominance-related effects for SCA and MPH, and additive-by-dominant effect for MPH was partly identified as additive effect; 2) the ranking of factors affecting heterosis was dominance > dominance-by-dominance > over-dominance > complete dominance; and 3) increasing the proportion of F1 hybrids in the population could significantly increase the power to detect dominance-related effects, and slightly reduce the power to detect additive and additive-by-additive effects. Analyses of cotton and rapeseed datasets showed that more additive-by-additive QTL were detected from GCA than from trait phenotype, and fewer QTL were from MPH than from other dependent variables.

SUBMITTER: Wen J 

PROVIDER: S-EPMC4683666 | biostudies-literature | 2015 Dec

REPOSITORIES: biostudies-literature

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Genetic dissection of heterosis using epistatic association mapping in a partial NCII mating design.

Wen Jia J   Zhao Xinwang X   Wu Guorong G   Xiang Dan D   Liu Qing Q   Bu Su-Hong SH   Yi Can C   Song Qijian Q   Dunwell Jim M JM   Tu Jinxing J   Zhang Tianzhen T   Zhang Yuan-Ming YM  

Scientific reports 20151217


Heterosis refers to the phenomenon in which an F1 hybrid exhibits enhanced growth or agronomic performance. However, previous theoretical studies on heterosis have been based on bi-parental segregating populations instead of F1 hybrids. To understand the genetic basis of heterosis, here we used a subset of F1 hybrids, named a partial North Carolina II design, to perform association mapping for dependent variables: original trait value, general combining ability (GCA), specific combining ability  ...[more]

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