These results promote the understanding of the genetic basis for these three traits, which contributes to maize grain yield improvement by breeding.Ībler B, Edwards M, Stuber C (1991) Isoenzymatic identification of quantitative trait loci in crosses of elite maize inbreds. Of these candidate genes, some putative functional genes from the co-localized regions were predicted including ts6, pin4, Zm00001d038022, and Zm00001d041584, of which ts6 located in a known major QTL for ERN (named krn1). Further, from the candidate regions of 116 significant loci, 558 genes expressed in maize cob and silk and participated in 71 biological pathways, such as RNA transport, protein export, biosynthesis of amino acids, and starch and sucrose metabolism. The increase of superior allele number for the 19 co-localized loci was positively correlated with maize grain yield. Among these significant loci, 19 were co-localized when using the traits in two environments and BLUP value. We detected 116 significant loci, i.e., 37, 42, and 37 related to ED, ERN, and KNR, respectively. In this study, to dissect the genetic basis of ear diameter (ED), ear row number (ERN), and kernel number per row (KNR), a genome-wide association study of maize inbred lines was conducted using the phenotype of the three traits in two environments and the best linear unbiased prediction (BLUP) value. The genetic basis of ear-related traits is still not completely understood, which would be helpful in the improvement of grain yield. Maize ear-related traits are important components of grain yield that directly influence maize production.
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