Abstract
Plant vigor is a complex trait for which the underlying molecular control mechanisms remain unclear. Vigorous plants tend to derive from larger seeds and have greater early canopy cover, often with bigger leaves. In this study, we delimited the size of a major vigor quantitative trait locus (QTL) on chickpea chromosome 4–104.4 kb, using recombinant association analysis in 15 different heterogeneous inbred families, derived from a Rupali/Genesis836 recombinant inbred line population. The phenotypic and molecular genetic analysis provided evidence for a role of the gene Ca4_TIFY4B, in determining leaf and seed size in chickpea. A non-synonymous single-nucleotide polymorphism (SNP) in the high-vigor parent was located inside the core motif TIFYCG, resulting in a residue change T[I/S]FYCG. Complexes formed by orthologs of Ca4_TIFY4B (PEAPOD in Arabidopsis), Novel Interactor of JAZ (CaNINJA), and other protein partners are reported to act as repressors regulating the transcription of downstream genes that control plant organ size. When tested in a yeast 2-hybrid (Y2H) assay, this residue change suppressed the interaction between Ca4_TIFY4B and CaNINJA. This is the first report of a naturally occurring variant of the TIFY family in plants. A robust gene-derived molecular marker is available for selection in chickpea for seed and plant organ size, i.e., key component traits of vigor.
Highlights
Chickpea is currently ranked as the second largest pulse produced worldwide after dry beans (FAOSTAT, 2019)
We identified a variant of the gene Ca4_TIFY4B in the high-vigor Rupali recombinant inbred line (RIL) parent, proposed to alter the regulation of seed size and other plant organs including leaves and roots and contribute to differences in plant vigor
To identify robust component traits for fine mapping, a phenotypic profiling experiment for a range of vigor-related traits was performed using six Ca4_Vqtl Rupali/Genesis836 RIL-derived near-isogenic lines (NILs) pairs grown under shade house conditions (Supplementary File 3)
Summary
Chickpea is currently ranked as the second largest pulse produced worldwide after dry beans (FAOSTAT, 2019). Vigor has been reported to contribute either positively (Subbarao et al, 1995; Turner et al, 2001) or negatively (Zaman-Allah et al, 2011) to yield. This suggests that to maximize productivity, genetic tools are needed to enable the selection of a specific vigor profile that is matched to a target environment
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