Persulfidation of Nitrate Reductase 2 Is Involved in l-Cysteine Desulfhydrase-Regulated Rice Drought Tolerance

Hydrogen sulfide (H S) is an important signaling molecule that regulates diverse cellular signaling pathways through persulfidation. Our previous study revealed that H S is involved in the improvement of rice drought tolerance. However, the corresponding enzymatic sources of H S and its regulatory m...

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Bibliographic Details
Published in:International journal of molecular sciences 2021-11, Vol.22 (22), p.12119
Main Authors: Zhou, Heng, Zhou, Yin, Zhang, Feng, Guan, Wenxue, Su, Ye, Yuan, Xingxing, Xie, Yanjie
Format: Article
Language:English
Subjects:
Abiotic stress
Abscisic acid
Abscisic Acid - metabolism
Antioxidants
Antioxidants - metabolism
Biosynthesis
Cloning
Cystathionine gamma-Lyase - genetics
Cystathionine gamma-Lyase - metabolism
Cysteine
Drought resistance
drought stress
Droughts
E coli
Enzymes
Gene expression
Genes
Homeostasis
Hydrogen sulfide
Hydrogen Sulfide - metabolism
l -cysteine desulfhydrase
Metabolism
Mutation
Nitrate reductase
Nitrate Reductase (NADH) - genetics
Nitrate Reductase (NADH) - metabolism
Oryza - genetics
Oryza - growth & development
Oryza - metabolism
persulfidation
Proteins
Reductases
Seedlings - genetics
Seedlings - growth & development
Signal Transduction - genetics
Stress, Physiological - genetics
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Summary:Hydrogen sulfide (H S) is an important signaling molecule that regulates diverse cellular signaling pathways through persulfidation. Our previous study revealed that H S is involved in the improvement of rice drought tolerance. However, the corresponding enzymatic sources of H S and its regulatory mechanism in response to drought stress are not clear. Here, we cloned and characterized a putative ( ) gene in rice, which encodes a protein possessing H S-producing activity and was named . Overexpression of results in enhanced H S production, persulfidation of total soluble protein, and confers rice drought tolerance. Further, we found that nitrate reductase (NR) activity was decreased under drought stress, and the inhibition of NR activity was controlled by endogenous H S production. Persulfidation of NIA2, an NR isoform responsible for the main NR activity, led to a decrease in total NR activity in rice. Furthermore, drought stress-triggered inhibition of NR activity and persulfidation of NIA2 was intensified in the overexpression line. Phenotypical and molecular analysis revealed that mutation of enhanced rice drought tolerance by activating the expression of genes encoding antioxidant enzymes and ABA-responsive genes. Taken together, our results showed the role of in modulating H S production and provided insight into H S-regulated persulfidation of NIA2 in the control of rice drought stress.
ISSN:1422-0067
1661-6596
1422-0067
DOI:10.3390/ijms222212119