1. Main Effect QTL with Dominance Determines Heterosis for Dynamic Plant Height in Upland Cotton.
- Author
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Lianguang Shang, Lingling Ma, Yumei Wang, Ying Su, Xiaocui Wang, Yuhua Li, Abdugheni Abduweli, Shihu Cai, Fang Liu, Kunbo Wang, and Jinping Hua
- Subjects
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PLANT development , *COTTON , *HETEROSIS in plants , *PHYSIOLOGY - Abstract
Plant height, which shows dynamic development and heterosis, is a major trait affecting plant architecture and has an indirect in uence on economic yield related to biological yield in cotton. In the present study, we carried out dynamic analysis for plant height and its heterosis by quantitative trait loci (QTL) mapping at multiple developmental stages using two recombinant inbred lines (RILs) and their backcross progeny. At the single-locus level, 47 QTL were identi ed at ve developmental stages in two hybrids. In backcross populations, QTL identi ed at an early stage mainly showed partial effects and QTL detected at a later stage mostly displayed overdominance effects. At the two-locus level, we found that main effect QTL played a more important role than epistatic QTL in the expression of heterosis in backcross populations. Therefore, this study implies that the genetic basis of plant height heterosis shows dynamic character and main effect QTL with dominance determines heterosis for plant height in Upland cotton. [ABSTRACT FROM AUTHOR]
- Published
- 2016
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