Adjustments of lipid pathways in plant adaptation to temperature stress

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DOI	Resolve DOI: https://doi.org/10.1080/15592324.2015.1058461
Author	Search for: Li, Qiang; Search for: Shen, Wenyun¹; Search for: Zheng, Qian; Search for: Fowler, D. Brian; Search for: Zou, Jitao¹
Affiliation	National Research Council of Canada. Aquatic and Crop Resource Development
Format	Text, Article
Subject	fatty acid metabolism; glycerolipid pathways; metabolic regulation; RNA sequencing; temperature adaptation
Abstract	Modulation of membrane lipid composition under varying environmental conditions is an important part of plant stress adaptation. Most notably, proportional changes of lipid composition in response to temperature changes are a major cellular response to requirements of membrane fluidity adjustment. In higher plants, synthesis of glycerolipids is accomplished by 2 major pathways, the prokaryotic and eukaryotic pathway, located in the chloroplast and the endoplasmic reticulum (ER), respectively. Recently, we systematically investigated the re-adjustments of glycerolipid pathways under temperature stress at the metabolite and transcript levels using 3 plant species with distinct lipid profiles. The relative contributions of 2 pathways and lipid channeling from the ER and chloroplast were both observed in plants under temperature stress. Potential factors controlling the lipid flux were identified through transcriptome analysis.
Publication date	2016-01-06
Publisher	Taylor &Francis
In	Plant Signaling and Behavior 11, no. 1, e1058461.
Language	English
Peer reviewed	Yes
NRC number	NRC-ACRD-56136
NPARC number	21277501
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Record identifier	3d51ddd2-bef6-4228-b0e9-8545eee8ee1c
Record created	2016-03-09
Record modified	2020-03-16

Date modified:: 2024-12-21