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Identification and segregation of two closely linked major QTLs for kernel row number in advanced maize–teosinte populations
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Identification and segregation of two closely linked major QTLs for kernel row number in advanced maize–teosinte populations
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Journal Article
Identification and segregation of two closely linked major QTLs for kernel row number in advanced maize–teosinte populations
2024
Overview
Key message
Two closely linked novel loci,
qKRN2-1
and
qKRN2-2
, associated with kernel row number were fine-mapped on chromosome 2, and a key candidate gene for
qKRN2-1
was identified through expression analysis.
Kernel row number (KRN) is a crucial factor influencing maize yield and serves as a significant target for maize breeding. The use of wild progenitor species can aid in identifying the essential traits for domestication and breeding. In this study, teosinte (MT1) served as the donor parent, the inbred maize line of Mo17 was used as the recurrent parent, we identified a major quantitative trait locus (QTL) for KRN, designated
qKRN2
, into two closely linked loci,
qKRN2-1
and
qKRN2-2
. Here, fine mapping was performed to investigate two QTLs,
qKRN2-1
and
qKRN2-2
, within a genomic range of 272 kb and 775 kb, respectively. This was achieved using a progeny test strategy in an advanced backcross population, with the two QTLs explaining 33.49% and 35.30% of the phenotypic variance. Molecular marker-assisted selection resulted in the development of two nearly isogenic lines (NILs),
qKRN2-1
and
qKRN2-2
, which differed only in the segment containing the QTL. Notably, the maize (Mo17) alleles increased the KRN relative to teosinte by approximately 1.4 and 1.2 rows for
qKRN2-1
and
qKRN2-2
, respectively.
Zm00001d002989
encodes a cytokinin oxidase/dehydrogenase and its expression in the immature ears exhibited significant differences among the
qKRN2-1
NILs. In situ hybridization localized
Zm00001d002989
to the primordia of the inflorescence meristem and spikelet pair meristems, is predicted to be the causal gene of
qKRN2-1.
The findings of this study deepen our understanding of the genetic basis of KRN and hold significant potential for improving maize grain yields.
Publisher
Springer Berlin Heidelberg,Springer,Springer Nature B.V
Subject
