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Query: UMLS:C0038187 (
starvation
)
24,951
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Budding yeast Saccharomyces cerevisiae is a facultative anaerobe whose growth upon oxygen
starvation
depends on its capacity to import exogenously supplied sterols, whereas the cells are not permeable to these molecules when grown aerobically. Few genes have been identified as being involved in sterol uptake. A higher
SUT1
gene dosage leads to a modest, but significant, increase in sterol uptake under aerobic conditions. Based on sequence and physiological data,
SUT1
is a hypoxic gene negatively regulated when the cells are grown in the presence of oxygen. We replaced the
SUT1
promoter with the constitutive PMA1 gene promoter in order to enhance its transcription. We observed that sterol uptake was then comparable with that obtained with a sterol importing hem1 mutant, although the heme status of the strain was not modified in a process which still occurs when the cells are not growing. Unexpectedly,
SUT1
constitutive expression led to a parallel significant increase in endogenous sterol biosynthesis. Moreover, here we present new data showing that the structurally related YPR009 gene (SUT2) is a functional homologue of
SUT1
, and that both gene products may represent two novel yeast regulatory proteins involved in sterol uptake.
...
PMID:SUT1 is a putative Zn[II]2Cys6-transcription factor whose upregulation enhances both sterol uptake and synthesis in aerobically growing Saccharomyces cerevisiae cells. 1124 76
The roots of alternate-bearing citrus (Murcott, a Citrus reticulata hybrid) trees undergo extreme fluctuations of carbohydrate abundance and
starvation
. Using this system, we investigated the effect of root carbohydrate (total soluble sugar, sucrose and starch) depletion on carbohydrate-related gene expression. A series of genes, including those coding for starch phosphorylase ( STPH-L and STPH-H), ADP-glucose pyrophosphorylase, small subunit ( Agps), R1, plastidic ADP/ATP transporter ( AATP), phosphoglucomutase ( PGM-P and PGM-C), sucrose synthase ( CitSuS1 and CitSuSA), sucrose transporter (
SUT1
and SUT2), hexokinase ( HK) and alpha-amylase ( alpha-AMY), have been isolated and their expression analyzed. The genes were found to respond differentially to carbohydrate depletion. STPH-L, STPH-H, Agps, R1, AATP, PGM-P, PGM-C, CitSuS1 and HK were down-regulated while
SUT1
and alpha-AMY were up-regulated during carbohydrate depletion. Two other genes, CitSuSA and SUT2, did not respond to carbohydrate depletion. Fruit removal, which interrupted the carbohydrate depletion induced by heavy fruiting, reversed these gene expression patterns. Trunk girdling and whole-plant darkening treatments, which brought about root carbohydrate depletion, induced the same changes in gene expression obtained in the alternate-bearing system. The possible roles of the up- and down-regulated genes in the metabolism of carbohydrate-depleted citrus roots are discussed. Although the specific signals involved have not been determined, the results support the feast/famine hypothesis of carbohydrate regulation proposed by Koch [K.E. Koch (1996) Annu Rev Plant Physiol Plant Mol Biol 47:509-540].
...
PMID:Effects of carbohydrate starvation on gene expression in citrus root. 1272 44
Sucrose transport and partitioning are crucial for seed filling. While many plasma-membrane-localised sucrose transporters (
SUT1
family members) have been analysed in seeds, the functions of vacuolar SUT2 members are still obscure. In barley grains, expression of HvSUT1 and HvSUT2 overlap temporally and spatially, suggesting concerted functions to regulate sucrose homeostasis. Using HvSUT2-RNAi plants, we found that grains were also deficient in HvSUT1 expression and seemingly sucrose-limited during mid-to-late grain filling. Transgenic endosperms accumulated less starch and dry weight, although overall sucrose and hexose contents were higher. Comprehensive transcript and metabolite profiling revealed that genes related to glycolysis, the tricarboxylic acid cycle, starch and amino acid synthesis, grain maturation, and abscisic acid signalling were down-regulated together with most glycolytic intermediates and amino acids. Sucrose was increased along the sucrose delivery route in the nucellar projection, the endosperm transfer cells, and the starchy endosperm, indicating that suppressed transporter activity diminished sucrose efflux from vacuoles, which generated sugar deficiency in the cytoplasm. Thus, endosperm vacuoles may buffer sucrose concentrations to regulate homeostasis at grain filling. Transcriptional changes revealed that limited endosperm sucrose initiated sugar
starvation
responses, such as sugar recycling from starch, hemicelluloses and celluloses together with vacuolar protein degradation, thereby supporting formation of nucleotide sugars. Barley endosperm cells can thus suppress certain pathways to retrieve resources to maintain essential cell functions.
...
PMID:Down-regulation of the sucrose transporters HvSUT1 and HvSUT2 affects sucrose homeostasis along its delivery path in barley grains. 2898 82
The sugar transporter (ST) is considered to be the most important gene family for sugar accumulation, but limited information about the ST family in Saccharum is available for this important sugar-yielding crop due to its complex genetic background. Here, 105 ST genes were identified and clustered into 8 subfamilies in Saccharum spontaneum. Comparative genomics revealed that tandem duplication events contributed to ST gene expansions of two subfamilies, PLT and STP, in S. spontaneum, indicating an early evolutionary step towards high sugar content in Saccharum. The analyses of expression patterns were based on four large datasets with a total of 226 samples of RNA-seq from S. spontaneum and Saccharum officinarum. The results clearly demonstrated 50 ST genes had different spatiotemporal expression patterns in leaf tissues, 10 specifically expressed STs in the stem and 10 STs responded to the diurnal rhythm. The results of heterologous expressions in the defective yeast strain EBY.VW4000 indicated STP13, pGlcT2, VGT3 and TMT4 are the STs with most affinity for glucose/fructose and SUT1_T1 has highest affinity to sucrose. Furthermore, metabolomics analysis suggested STP7 was a sugar
starvation
-induced gene, STP13 had a function in retrieving the sugar in senescent tissues. PLT11, PLT11_T1, TMT3 and TMT4 contributed to breaking the limitations of the storage sink.
SUT1
, SUT1_T1, PLT11, TMT4, pGlcT2, and VGT3 responded for different function in these two Saccharum species. This study demonstrated the evolutionary expansion and functional divergence of ST gene family and will enable the further investigation of the molecular mechanism of sugar metabolism in Saccharum.
...
PMID:Evolutionary Expansion and Functional Divergence of Sugar Transporters in Saccharum (S. spontaneum and S. officinarum). 3317 5
