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Panicle transcriptome of high-yield mutant indica rice reveals physiological mechanisms and novel candidate regulatory genes for yield under reproductive stage drought stress.

Authors :
Eragam A
Mohapatra A
Shukla V
Kadumuri RV
George AP
Putta L
Akkareddy S
Chavali S
Vemireddy LR
Ramireddy E
Source :
BMC plant biology [BMC Plant Biol] 2023 Oct 13; Vol. 23 (1), pp. 493. Date of Electronic Publication: 2023 Oct 13.
Publication Year :
2023

Abstract

Background: Reproductive stage drought stress (RDS) is a major global threat to rice production. Due to climate change, water scarcity is becoming an increasingly common phenomenon in major rice-growing areas worldwide. Understanding RDS mechanisms will allow candidate gene identification to generate novel rice genotypes tolerant to RDS.<br />Results: To generate novel rice genotypes that can sustain yield under RDS, we performed gamma-irradiation mediated mutation breeding in the drought stress susceptible mega rice variety, MTU1010. One of the mutant MM11 (MTU1010 derived mutant11) shows consistently increased performance in yield-related traits under field conditions consecutively for four generations. In addition, compared to MTU1010, the yield of MM11 is sustained in prolonged drought imposed during the reproductive stage under field and in pot culture conditions. A comparative emerged panicle transcriptome analysis of the MTU1010 and MM11 suggested metabolic adjustment, enhanced photosynthetic ability, and hormone interplay in regulating yield under drought responses during emerged panicle development. Regulatory network analysis revealed few putative significant transcription factor (TF)-target interactions involved in integrated signalling between panicle development, yield and drought stress.<br />Conclusions: A gamma-irradiate rice mutant MM11 was identified by mutation breeding, and it showed higher potential to sustain yield under reproductive stage drought stress in field and pot culture conditions. Further, a comparative panicle transcriptome revealed significant biological processes and molecular regulators involved in emerged panicle development, yield and drought stress integration. The study extends our understanding of the physiological mechanisms and candidate genes involved in sustaining yield under drought stress.<br /> (© 2023. BioMed Central Ltd., part of Springer Nature.)

Details

Language :
English
ISSN :
1471-2229
Volume :
23
Issue :
1
Database :
MEDLINE
Journal :
BMC plant biology
Publication Type :
Academic Journal
Accession number :
37833626
Full Text :
https://doi.org/10.1186/s12870-023-04507-1