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Query: UMLS:C0240066 (
iron deficiency
)
7,156
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Chlamydomonas reinhardtii cells exposed to abiotic stresses (e.g. nitrogen, zinc, or phosphorus deficiency) accumulate triacylglycerols (TAG), which are stored in lipid droplets. Here, we report that iron starvation leads to formation of lipid droplets and accumulation of TAGs. This occurs between 12 and 24 h after the switch to iron-starvation medium. C. reinhardtii cells deprived of iron have more saturated fatty acid (FA), possibly due to the loss of function of FA desaturases, which are iron-requiring enzymes with diiron centers. The abundance of a plastid acyl-ACP desaturase (FAB2) is decreased to the same degree as ferredoxin. Ferredoxin is a substrate of the desaturases and has been previously shown to be a major target of the
iron deficiency
response. The increase in saturated FA (C16:0 and
C18
:0) is concomitant with the decrease in unsaturated FA (C16:4,
C18
:3, or
C18
:4). This change was gradual for diacylglyceryl-N,N,N-trimethylhomoserine (DGTS) and digalactosyldiacylglycerol (DGDG), whereas the monogalactosyldiacylglycerol (MGDG) FA profile remained stable during the first 12 h, whereas MGDG levels were decreasing over the same period of time. These changes were detectable after only 2 h of iron starvation. On the other hand, DGTS and DGDG contents gradually decreased until a minimum was reached after 24-48 h. RNA-Seq analysis of iron-starved C. reinhardtii cells revealed notable changes in many transcripts coding for enzymes involved in FA metabolism. The mRNA abundances of genes coding for components involved in TAG accumulation (diacylglycerol acyltransferases or major lipid droplet protein) were increased. A more dramatic increase at the transcript level has been observed for many lipases, suggesting that major remodeling of lipid membranes occurs during iron starvation in C. reinhardtii.
...
PMID:Remodeling of membrane lipids in iron-starved Chlamydomonas. 2398 22
Acyl carrier proteins (ACPs) are a group of small acidic proteins functioning as important cofactors in the
de novo
synthesis of fatty acids. In
Arabidopsis
, ACPs are encoded by a small gene family comprising five plastid members,
AtACP1
to
AtACP5
, and three mitochondrial members. The biological functions and the transcriptional responses to abiotic stresses of most AtACPs have yet to be elucidated. The present study extends previous findings and provides new knowledge on the function of ACPs by examining the responses of AtACP-encoding genes to several abiotic stresses and, in particular, the role of
AtACP5
in the adaptation to salt stress. Phylogenetic analysis showed that AtACP1, AtACP2, AtACP3, and AtACP5 can be classified into one group and separated from a group comprising AtACP4 and ACP homologs from related species. Quantitative RT-PCR analysis revealed that the expression of
AtACP1, AtACP2
, and
AtACP3
was induced by drought. Both
iron deficiency
and nitrogen starvation resulted in down-regulation of
AtACP4
. The most pronounced response was observed for
AtACP5
, the expression of which was dramatically decreased by salt stress. Knock-out of
AtACP5
showed increased sensitivity to NaCl stress, whereas transgenic lines overexpressing
AtACP5
displayed increased salt tolerance relative to the wild-type. Overexpression of
AtACP5
further led to an altered composition of fatty acids, mainly a decrease of oleic acid (
C18
:1) and an increase of palmitic acid (C16:0), and to a lower Na
+
/K
+
ratio when compared to the salt stressed wild-type. The comprehensive transcriptional information on the small plastid AtACP gene family in response to various abiotic stresses and the further investigation of the
AtACP5
indicate that
AtACP5
might be critical for salt tolerance through alterations of the composition of fatty acids and, subsequently, the Na
+
/K
+
ratio.
...
PMID:Genes of ACYL CARRIER PROTEIN Family Show Different Expression Profiles and Overexpression of ACYL CARRIER PROTEIN 5 Modulates Fatty Acid Composition and Enhances Salt Stress Tolerance in
Arabidopsis
. 2864 82
