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Intriguing Role of Proline in Redox Potential Conferring High Temperature Stress Tolerance

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Title Intriguing Role of Proline in Redox Potential Conferring High Temperature Stress Tolerance
 
Creator Kavi Kishor, P.B.
Suravajhala, Prashanth
Rathnagiri, P.
Sreenivasulu, Nese
 
Subject stress
protein content
reactive oxygen species
redox couple
 
Description Proline is a proteinogenic amino acid synthesized from glutamate and ornithine. Pyrroline-5-carboxylate synthetase and pyrroline-5-carboxylate reductase are the two key enzymes involved in proline synthesis from glutamate. On the other hand, ornithine-δ-aminotransferase converts ornithine to pyrroline 5-carboxylate (P5C), an intermediate in the synthesis of proline as well as glutamate. Both proline dehydrogenase and P5C dehydrogenase convert proline back to glutamate. Proline accumulation is widespread in response to environmental challenges such as high temperatures, and it is known to defend plants against unpropitious situations promoting plant growth and flowering. While proline accumulation is positively correlated with heat stress tolerance in some crops, it has detrimental consequences in others. Although it has been established that proline is a key osmolyte, its exact physiological function during heat stress and plant ontogeny remains unknown. Emerging evidence pointed out its role as an overriding molecule in alleviating high temperature stress (HTS) by quenching singlet oxygen and superoxide radicals. Proline cycle acts as a shuttle and the redox couple (NAD+/NADH, NADP+/NADPH) appears to be highly crucial for energy transfer among different cellular compartments during plant development, exposure to HTS conditions and also during the recovery of stress. In this review, the progress made in recent years regarding its involvement in heat stress tolerance is highlighted.
 
Date 2022-06-10
2022-12-21T14:26:42Z
2022-12-21T14:26:42Z
 
Type Journal Article
 
Identifier Kishor, PB Kavi, Prashanth Suravajhala, P. Rathnagiri, and Nese Sreenivasulu. "Intriguing role of proline in redox potential conferring high temperature stress tolerance." Frontiers in Plant Science 13 (2022).
1664-462X
https://hdl.handle.net/10568/126198
https://doi.org/10.3389/fpls.2022.867531
 
Language en
 
Rights CC-BY-4.0
Open Access
 
Format 1-16
application/pdf
 
Source Frontiers in Plant Science