Integrated Transcriptomic, Metabolomic, and Physio-Biochemical Analyses Reveal that NO and H2S Enhance Drought Tolerance in Upland Rice

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Integrated Transcriptomic, Metabolomic, and Physio-Biochemical Analyses Reveal that NO and H₂S Enhance Drought Tolerance in Upland Rice

Key Laboratory of Tropical Plant Resources and Sustainable Use, Xishuangbanna Tropical Botanical Garden, Chinese Academy of Sciences, Mengla 666303, China; ^#These authors contributed equally to this work

Contact: XU Peng; WAN Jinpeng
Supported by:
This study was supported by the National Natural Science Foundation of China (Grant No. 32270133), the Yunnan Revitalization Talent Project, China (Grant Nos. XDYC-QNRC-2023-0672 and XDYCCYCX-2022-0026), Yunnan Applied Basic Research, China (Grant No. 202301AT070329), the Major Science and Technology Project in Yunnan, China (Grant No. 202402AE090026), the West Light Foundation of CAS, the 14th Five-Year Plan of Xishuangbanna Tropical Botanical Garden, Chinese Academy of Sciences (CAS), and the Yunnan Province Key Research and Development Plan Project, China (Grant Nos. 202303AM140023 and 202403AM140005). The authors thanked the Institutional Center for Shared Technologies and Facilities of Xishuangbanna Tropical Botanical Garden, CAS, for providing mineral element facilities.

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Abstract

Mohammad Abass AHANGER, LI Yunfang, Biru Alemu CHALI, LIU Guizhou, LU Chengkai, WAN Jinpeng, XU Peng. Integrated Transcriptomic, Metabolomic, and Physio-Biochemical Analyses Reveal that NO and H₂S Enhance Drought Tolerance in Upland Rice[J]. Rice Science.

Integrated Transcriptomic, Metabolomic, and Physio-Biochemical Analyses Reveal that NO and H₂S Enhance Drought Tolerance in Upland Rice

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