Abstract
L eaf senescence is an essential physiological process related to grain yield potential and nutritional quality.Green leaf duration(GLD)after anthesis directly reflects the leaf senescence process and exhibits large genotypic differences in common wheat;however,the underlying gene regulatory mechanism is still lacking.Here,we identified TaNAM-A1 as the causal gene of the major loci qGLD-6A for GLD during grain filling by map-based cloning.Transgenic assays and TILLING mutant analyses demonstrated that TaNAM-A1 played a critical role in regulating leaf senescence,and also affected spike length and grain size.Furthermore,the functional divergences among the three haplotypes of TaNAM-A1 were systematically evaluated.Wheat varieties with TaNAM-A1d(containing two mutations in the coding DNA sequence of TaNAM-A1)exhibited a longer GLD and superior yield-related traits com-pared to those with the wild type TaNAM-A1a.All three haplotypes were functional in activating the expression of genes involved in macromolecule degradation and mineral nutrient remobilization,with TaNAM-A1a showing the strongest activity and TaNAM-A1d the weakest.TaNAM-A1 also modulated the expression of the senescence-related transcription factors TaNAC-S-7A and TaNAC016-3A.TaNAC016-3A enhanced the tran-scriptional activation ability of TaNAM-A1a by protein-protein interaction,thereby promoting the senescence process.Our study offers new insights into the fine-tuning of the leaf functional period and grain yield formation for wheat breeding under various geographical climatic conditions.
基金项目
Strategic Priority Research Program of Chinese Academy of Sciences(XDA24010202)
National Natural Sciences Foundation of China(U22A6009)
NETL
NSTL
万方数据