In plants, lipid metabolism and remodelling are key mechanisms for survival under
temperature stress. The present study attempted to compare the lipid profile in barley roots …

Lipids are a principal component of plasma membrane, acting as a protective barrier
between the cell and its surroundings. Abiotic stresses such as drought and temperature …

Plants are easily exposed to a wide range of adverse environmental conditions. Lipids, as
one of the most crucial components of biological membranes in all plant tissues, have …

Changes in membrane lipid composition play important roles in plant adaptation to and
survival after freezing. Plant response to cold and freezing involves three distinct phases …

Phospholipase D (PLD) hydrolyses phospholipids to yield phosphatidic acid (PA) and a
head group, and is involved in responses to a variety of environmental stresses, including …

Freezing stress is accompanied by a state change from water to ice and has multiple facets
causing dehydration; consequently, hyperosmotic and mechanical stresses coupled with …

Environmental stresses cause membrane damage in terrestrial plants. Studies on the lipids
obtained from these plants are required to understand their adaptation to climate change …

In plant cells, phosphatidylglycerol (PG) in the chloroplast has a characteristic trans‐∆ 3‐
hexadecenoic acid (t16: 1) at the sn‐2 position. The t16: 1 content in wheat leaf tissues …

Introduction Frost events lead to A $360 million of yield losses annually to the Australian
wheat industry, making improvement of chilling and frost tolerance an important trait for …

At the cellular level, the remodelling of membrane lipids and production of heat shock
proteins are the two main strategies whereby plants survive heat stress. Although many …