1. Identification of C-T novel polymorphism in 3rd exon of OsSPL14 gene governing seed sequence in rice.
- Author
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Din, Muhammad Salah ud, Wang, Xiukang, Alamery, Salman, Fiaz, Sajid, Rasheed, Haroon, Khan, Muhammad Abid, Khan, Shahid Ullah, Saeed, Sumbul, Ali, Niaz, Marwat, Kalim Ullah, Attia, Kotb, Kimiko, Itoh, and Wani, Shabir Hussain
- Subjects
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RICE seeds , *CROP improvement , *FOOD shortages , *PROMOTERS (Genetics) , *GENES - Abstract
Recently food shortage has become the major flagging scenario around the globe. To resolve this challenge, there is dire need to significantly increase crop productivity per unit area. In the present study, 24 genotypes of rice were grown in pots to assess their tillering number, number of primary and secondary branches per panicle, number of grains per panicle, number of grains per plant, and grain yield, respectively. In addition, the potential function of miR156 was analyzed, regulating seed sequence in rice. Furthermore, OsSPL14 gene for miR156 was sequenced to identify additional mutations within studied region. The results demonstrated Bas-370 and L-77 showed highest and lowest tillers, respectively. Bas-370, Rachna basmati, Bas-2000, and Kashmir Basmati showed high panicle branches whereas, L-77, L-46, Dilrosh, L-48, and L-20 displayed lowest panicle branches. Bas-370 and four other studied accessions contained C allele whereas, L-77 and 18 other investigated accessions had heterozygous (C and T) alleles in their promoter region. C-T allelic mutation was found in 3rd exon of the OsSPL14 gene. The sequence analysis of 12 accessions revealed a novel mutation (C-T) present ~2bp upstream and substitution of C-A allele. However, no significant correlation for novel mutation was found for tillering and panicle branches in studied rice accessions. Taken together present results suggested novel insight into the binding of miR156 to detected mutation found in 3rd exon of the OsSPL14 gene. Nevertheless, L-77, L-46, Dilrosh, L-48, and L-20 could be used as potential breeding resource for improving panicle architecture contributing yield improvement of rice crop. [ABSTRACT FROM AUTHOR]
- Published
- 2022
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