Role of proline under changing environments: a review

doi:10.4161/psb.21949

Review

. 2012 Nov;7(11):1456-66.

doi: 10.4161/psb.21949. Epub 2012 Sep 5.

Role of proline under changing environments: a review

Shamsul Hayat¹, Qaiser Hayat, Mohammed Nasser Alyemeni, Arif Shafi Wani, John Pichtel, Aqil Ahmad

Affiliations

PMID: 22951402
PMCID: PMC3548871
DOI: 10.4161/psb.21949

Review

Role of proline under changing environments: a review

Shamsul Hayat et al. Plant Signal Behav. 2012 Nov.

. 2012 Nov;7(11):1456-66.

doi: 10.4161/psb.21949. Epub 2012 Sep 5.

Authors

Shamsul Hayat¹, Qaiser Hayat, Mohammed Nasser Alyemeni, Arif Shafi Wani, John Pichtel, Aqil Ahmad

Affiliation

¹ Department of Botany & Microbiology, Faculty of Science, King Saudi University, Riyadh, Saudi Arabia. shayat@lycos.com

PMID: 22951402
PMCID: PMC3548871
DOI: 10.4161/psb.21949

Abstract

When exposed to stressful conditions, plants accumulate an array of metabolites, particularly amino acids. Amino acids have traditionally been considered as precursors to and constituents of proteins, and play an important role in plant metabolism and development. A large body of data suggests a positive correlation between proline accumulation and plant stress. Proline, an amino acid, plays a highly beneficial role in plants exposed to various stress conditions. Besides acting as an excellent osmolyte, proline plays three major roles during stress, i.e., as a metal chelator, an antioxidative defense molecule and a signaling molecule. Review of the literature indicates that a stressful environment results in an overproduction of proline in plants which in turn imparts stress tolerance by maintaining cell turgor or osmotic balance; stabilizing membranes thereby preventing electrolyte leakage; and bringing concentrations of reactive oxygen species (ROS) within normal ranges, thus preventing oxidative burst in plants. Reports indicate enhanced stress tolerance when proline is supplied exogenously at low concentrations. However, some reports indicate toxic effects of proline when supplied exogenously at higher concentrations. In this article, we review and discuss the effects of exogenous proline on plants exposed to various abiotic stresses. Numerous examples of successful application of exogenous proline to improve stress tolerance are presented. The roles played by exogenous proline under varying environments have been critically examined and reviewed.

Keywords: abiotic stress; antioxidant system; proline.

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Figures

None — **Figure 1.** Proline metabolism in higher plants. Solid lines represents the biosynthetic pathway while catabolic pathways are shown with dashed lines. BAC, basic amino acid transporter (for arginine and ornithine exchange); Glu, glutamate; G/P, mitochondrial glutamate/proline antiporter; KG, α-ketoglutarate; P, mitochondrial proline transporter; Pi, inorganic phosphate; ProT, proline transporter; ?, unknown transporters. (*Figure adapted from Szabados and Savoure [151]*)

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References

1. Foyer CH, Noctor G. Redox homeostasis and antioxidant signaling: a metabolic interface between stress perception and physiological responses. Plant Cell. 2005;17:1866–75. doi: 10.1105/tpc.105.033589. - DOI - PMC - PubMed
1. Serraj R, Sinclair TR. Osmolyte accumulation: can it really help increase crop yield under drought conditions? Plant Cell Environ. 2002;25:333–41. doi: 10.1046/j.1365-3040.2002.00754.x. - DOI - PubMed
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[1] Foyer CH, Noctor G. Redox homeostasis and antioxidant signaling: a metabolic interface between stress perception and physiological responses. Plant Cell. 2005;17:1866–75. doi: 10.1105/tpc.105.033589. - DOI - PMC - PubMed

[2] Foyer CH, Noctor G. Redox homeostasis and antioxidant signaling: a metabolic interface between stress perception and physiological responses. Plant Cell. 2005;17:1866–75. doi: 10.1105/tpc.105.033589. - DOI - PMC - PubMed

[3] Serraj R, Sinclair TR. Osmolyte accumulation: can it really help increase crop yield under drought conditions? Plant Cell Environ. 2002;25:333–41. doi: 10.1046/j.1365-3040.2002.00754.x. - DOI - PubMed

[4] Serraj R, Sinclair TR. Osmolyte accumulation: can it really help increase crop yield under drought conditions? Plant Cell Environ. 2002;25:333–41. doi: 10.1046/j.1365-3040.2002.00754.x. - DOI - PubMed

[5] Ashraf M, Foolad MR. Roles of glycine betaine and proline in improving plant abiotic stress resistance. Environ Exp Bot. 2007;59:206–16. doi: 10.1016/j.envexpbot.2005.12.006. - DOI

[6] Ashraf M, Foolad MR. Roles of glycine betaine and proline in improving plant abiotic stress resistance. Environ Exp Bot. 2007;59:206–16. doi: 10.1016/j.envexpbot.2005.12.006. - DOI

[7] Bohnert HJ, Jensen RG. Strategies for engineering water-stress tolerance in plants. Trends Biotechnol. 1996;14:89–97. doi: 10.1016/0167-7799(96)80929-2. - DOI

[8] Bohnert HJ, Jensen RG. Strategies for engineering water-stress tolerance in plants. Trends Biotechnol. 1996;14:89–97. doi: 10.1016/0167-7799(96)80929-2. - DOI

[9] Yancey PH. Compatible and counteracting solutes In: Strange K ed. Cellular and Molecular Physiology of Cell Volume Regulation. Boca Raton, FL: CRC Press, 1994:81-109.

[10] Yancey PH. Compatible and counteracting solutes In: Strange K ed. Cellular and Molecular Physiology of Cell Volume Regulation. Boca Raton, FL: CRC Press, 1994:81-109.

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Role of proline under changing environments: a review

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