Genetic Mapping of the Leaf Number above the Primary Ear and Its Relationship with Plant Height and Flowering Time in Maize

The leaf number above the primary ear (LA) is a major contributing factor to plant architecture in maize. The yield of leafy maize, which has extra LA compared to normal maize, is higher than normal maize in some regions. One major concern is that increasing LA may be accompanied by increased plant...

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Published in:Frontiers in plant science 2017-08, Vol.8, p.1437-1437
Main Authors: Cui, Min, Jia, Bo, Liu, Huanhuan, Kan, Xin, Zhang, Yu, Zhou, Ronghua, Li, Zhipeng, Yang, Liang, Deng, Dexiang, Yin, Zhitong
Format: Article
Language:English
Subjects:
flowering time
leaf number above the primary ear
maize
plant height
Plant Science
quantitative trait loci (QTL)
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Summary:The leaf number above the primary ear (LA) is a major contributing factor to plant architecture in maize. The yield of leafy maize, which has extra LA compared to normal maize, is higher than normal maize in some regions. One major concern is that increasing LA may be accompanied by increased plant height and/or flowering time. Using an F population comprising 192 families derived from a leafy maize line and a normal maize line, an association population comprising 437 inbred maize lines, and a pair of near-isogenic maize lines, we mapped the quantitative trait loci (QTL) associated with LA and assessed its genetic relationship with flowering time and plant height. Ten QTL with an additive and dominant effect, 18 pairs of interacting QTL in the F population and seventeen significant SNPs in the association population were detected for LA. Two major QTL, and , were repeatedly detected and explained a large proportion of the phenotypic variation. The was centered on , which is a dominant gene underlying extra leaves above the ear in leafy maize. Four LA QTL were found to overlap with flowering time and/or plant height, which suggested that these QTL might have a pleiotropic effect. The pleiotropy of the locus on LA, flowering time and plant height were validated by near-isogenic line analysis. These results enhance our understanding of the genetic architecture affecting maize LA and the development of maize hybrids with increased LA.
ISSN:1664-462X
1664-462X
DOI:10.3389/fpls.2017.01437