The present study was conducted to identify quantitative trait loci (QTLs) for leaf size traits in IR64 introgression lines (INLs). For this purpose, selected F2 populations derived from crosses between recurrent ...The present study was conducted to identify quantitative trait loci (QTLs) for leaf size traits in IR64 introgression lines (INLs). For this purpose, selected F2 populations derived from crosses between recurrent parent IR64 and its derived INLs, unique for leaf length and leaf width, were used to confirm QTLs. A total of eight QTLs, mapped on three chromosomes, were identified for the four leaf size traits in six F2 populations. A QTL for leaf length, qLLnpt-1, in HKL69 was identified around simple sequence repeat (SSR) marker RM3709 on chromosome 1. Two QTLs for flag leaf length, qFLLnpt-2 and qFLLnpt-4, in HFG39 were indentified on chromosomes 2 and 4, respectively. For flag leaf width, a QTL, qFLWnpt-4, in HFG39 was identified around RM17483 on chromosome 4. While another QTL for flag leaf width, qFLWnpt-1, in HFG27 was identified around RM3252 on chromosome 1. A QTL for leaf width, qLWnpt-2, in HKL75 was identified around RM7451 on chromosome 2. For leaf width, two QTLs, qLWnpt-4a, qLWnpt-4b, in HKL48 and HKL99 were identified around RM7208 and RM6909, respectively on chromosome 4. Results from this study suggest the possibilities to use marker-assisted selection and pyramiding these QTLs to improve rice water productivity.展开更多
microRNAs (miRNAs) are key regulatory molecules that fine tune gene expression at the transcriptional and post-transcriptional levels through the RNA silencing pathways. They play an important role in regulating plant...microRNAs (miRNAs) are key regulatory molecules that fine tune gene expression at the transcriptional and post-transcriptional levels through the RNA silencing pathways. They play an important role in regulating plant growth, development and response to a/biotic stress conditions. Grain yield is a complex trait that is governed by the coordinated action of several genetic and environmental factors. A number of genes and miRNAs have been identified to affect the grain productivity and yield. In this study, we identified the miRNAs that map to grain yield QTLs in rice. The expression variations of these miRNAs and their target transcript were studied across different tissues of three indica rice varieties with different grain morphology. The varieties used include the extra-long and slender grained Pusa Basmati 1 (PB1), medium grain sized IR64 and the short grained Pokkali (PK). The windows for miRNA target correlation were captured and their putative role in regulating rice grain yield is discussed.展开更多
文摘The present study was conducted to identify quantitative trait loci (QTLs) for leaf size traits in IR64 introgression lines (INLs). For this purpose, selected F2 populations derived from crosses between recurrent parent IR64 and its derived INLs, unique for leaf length and leaf width, were used to confirm QTLs. A total of eight QTLs, mapped on three chromosomes, were identified for the four leaf size traits in six F2 populations. A QTL for leaf length, qLLnpt-1, in HKL69 was identified around simple sequence repeat (SSR) marker RM3709 on chromosome 1. Two QTLs for flag leaf length, qFLLnpt-2 and qFLLnpt-4, in HFG39 were indentified on chromosomes 2 and 4, respectively. For flag leaf width, a QTL, qFLWnpt-4, in HFG39 was identified around RM17483 on chromosome 4. While another QTL for flag leaf width, qFLWnpt-1, in HFG27 was identified around RM3252 on chromosome 1. A QTL for leaf width, qLWnpt-2, in HKL75 was identified around RM7451 on chromosome 2. For leaf width, two QTLs, qLWnpt-4a, qLWnpt-4b, in HKL48 and HKL99 were identified around RM7208 and RM6909, respectively on chromosome 4. Results from this study suggest the possibilities to use marker-assisted selection and pyramiding these QTLs to improve rice water productivity.
文摘microRNAs (miRNAs) are key regulatory molecules that fine tune gene expression at the transcriptional and post-transcriptional levels through the RNA silencing pathways. They play an important role in regulating plant growth, development and response to a/biotic stress conditions. Grain yield is a complex trait that is governed by the coordinated action of several genetic and environmental factors. A number of genes and miRNAs have been identified to affect the grain productivity and yield. In this study, we identified the miRNAs that map to grain yield QTLs in rice. The expression variations of these miRNAs and their target transcript were studied across different tissues of three indica rice varieties with different grain morphology. The varieties used include the extra-long and slender grained Pusa Basmati 1 (PB1), medium grain sized IR64 and the short grained Pokkali (PK). The windows for miRNA target correlation were captured and their putative role in regulating rice grain yield is discussed.
