1984
DOI: 10.1104/pp.74.2.193
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Microsomal Phospholipid Molecular Species Alterations during Low Temperature Acclimation in Dunaliella

Abstract: (1 1, 14).In this communication, we describe the changes in microsomal membrane acyl chain composition of each major polar lipid of the green alga Dunaliella salina and demonstrate that the molecular species distribution within certain phospholipid classes is rapidly modified by low temperature stress. This analytical approach permits the recognition of structural and metabolic relationships not revealed by usual lipid analytical techniques. Similar analyses have also been carried out on chloroplast phospholip… Show more

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Cited by 71 publications
(27 citation statements)
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“…Often only lipid analyses of whole tissue or organs have been related to adaptation of a given plant species. A limited number of studies (5,6,9,17,20,30) have examined the relationship between lipid metabolism and stress tolerance based on a separate analysis of the organelle and an analysis of specific tissues. Accordingly, we analyzed the lipid composition of osmotic-stressed mitochondria of root and shoot tissue.…”
Section: Methodsmentioning
confidence: 99%
“…Often only lipid analyses of whole tissue or organs have been related to adaptation of a given plant species. A limited number of studies (5,6,9,17,20,30) have examined the relationship between lipid metabolism and stress tolerance based on a separate analysis of the organelle and an analysis of specific tissues. Accordingly, we analyzed the lipid composition of osmotic-stressed mitochondria of root and shoot tissue.…”
Section: Methodsmentioning
confidence: 99%
“…The lipids were resolved into FA, MAG, and unhydrolyzed DAG by TLC, and after visualizing the lipids with primulin the desired bands were extracted with chloroform/methanol (6:1, v/v). Following the addition of nonadecanoic acid internal standard, each sample was transmethylated and the FA methyl esters were analyzed by GC (15).…”
Section: Rhizopus Lipase Hydrolysismentioning
confidence: 99%
“…PL molecular species are defined by the nature of the acyl (alkyl) residues attached to the C-1 (also called sn-1, using stereospecific numbering) and C-2 positions (sn-2) of the glycerol backbone. The molecular species are uniquely and differentially distributed among different tissues [1,2], and because of their importance in regulating development, function and adaptation [3][4][5], analysis of PL molecular species and their alterations is of considerable interest in many areas of biological research.Thin layer chromatography (TLC) [6 -8] and normal-phase high performance liquid chromatography (HPLC) [9,10] are well suited for the separation of PL classes, whereas the separation of molecular species within each class may be accomplished using gas chromatography (GC) [11,12] or reversed-phase HPLC [13][14][15] (see [5] for a review on lipid molecular species analysis). Conversion of PL species to GCsuitable derivatives is laborious and time consuming, and often results in analyte loss.…”
mentioning
confidence: 99%
“…PL molecular species are defined by the nature of the acyl (alkyl) residues attached to the C-1 (also called sn-1, using stereospecific numbering) and C-2 positions (sn-2) of the glycerol backbone. The molecular species are uniquely and differentially distributed among different tissues [1,2], and because of their importance in regulating development, function and adaptation [3][4][5], analysis of PL molecular species and their alterations is of considerable interest in many areas of biological research.…”
mentioning
confidence: 99%