Diversity, distribution and roles of osmoprotective compounds accumulated in halophytes under abiotic stress

• Published in: Annals of botany Vol. 115; no. 3; pp. 433 - 447
• Main Authors: Slama, Inès, Abdelly, Chedly, Bouchereau, Alain, Flowers, Tim, Savouré, Arnould
• Format: Journal Article
• Language: English
• Published: England Oxford University Press 01.02.2015; Oxford University Press (OUP)
• Subjects: Life Sciences; Organic Chemicals - metabolism; Osmosis; REVIEW: PART OF A SPECIAL ISSUE ON HALOPHYTES AND SALINE ADAPTATIONS; Salt Tolerance; Salt-Tolerant Plants - metabolism; Sodium Chloride - chemistry; Vacuoles - metabolism; osmolytes; osmoregulation; Abiotic stress; salinity stress; salt tolerance; osmoprotection; osmotic adjustment; halophytes; genetic engineering
• ISSN: 0305-7364; 1095-8290; 1095-8290
• DOI: 10.1093/aob/mcu239

Osmolytes are low-molecular-weight organic solutes, a broad group that encompasses a variety of compounds such as amino acids, tertiary sulphonium and quaternary ammonium compounds, sugars and polyhydric alcohols. Osmolytes are accumulated in the cytoplasm of halophytic species in order to balance the osmotic potential of the Na(+) and Cl(-) accumulated in the vacuole. The advantages of the accumulation of osmolytes are that they keep the main physiological functions of the cell active, the induction of their biosynthesis is controlled by environmental cues, and they can be synthesized at all developmental stages. In addition to their role in osmoregulation, osmolytes have crucial functions in protecting subcellular structures and in scavenging reactive oxygen species. This review discusses the diversity of osmolytes among halophytes and their distribution within taxonomic groups, the intrinsic and extrinsic factors that influence their accumulation, and their role in osmoregulation and osmoprotection. Increasing the osmolyte content in plants is an interesting strategy to improve the growth and yield of crops upon exposure to salinity. Examples of transgenic plants as well as exogenous applications of some osmolytes are also discussed. Finally, the potential use of osmolytes in protein stabilization and solvation in biotechnology, including the pharmaceutical industry and medicine, are considered.