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Query: UMLS:C0038187 (starvation)
 24,951 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

In shake flasks, good oxygen supply tended to decrease rtPA expression in media containing only yeast extract and tryptone, while oxygen limitation would increase rtPA synthesis in the same medium. Our data showed that though the drop of rtPA expression in the 20-ml cultures of LBG or 2YTG was accompanied with a severe acetate accumulation, it was actually caused by low ammonia. The rtPA expression level could be significantly improved by increasing culture ammonium ion up to 500 mM. The effects of exogenous high ammonia on cell growth and rtPA expression were further examined in shake flasks and a 4-l fermentor. The high ammonia had no significant impact on cell growth and oxygen respiratory activity but significantly depressed the activities of glutamine synthetase/glutamate synthase and glutamate dehydrogenase, suggesting that ammonium ion as a nitrogen source improved the protein expression by mediating ammonia-assimilating enzymes. We thus propose in our work that E. coli cells, which were grown to a certain density to produce rtPA, would undergo nitrogen starvation under the low ammonia conditions even when the organic nitrogen sources remained abundant. The scale-up of rtPA production from shake flasks to fermentors could be readily achieved in the media containing rich ammonium ion.
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PMID:Impact of oxygen supply on rtPA expression in Escherichia coli BL21 (DE3): ammonia effects. 1901 48

The expression of five genes involved in nitrogen assimilation in cyanobacteria, namely glnA, glsF, icd, ntcA, and glnB, encoding three key enzymes from that pathway (glutamine synthetase, glutamate synthase, isocitrate dehydrogenase) and two regulatory proteins (NtcA and PII), was studied in this work. Their changes under different conditions were analyzed by quantitative real-time RT-PCR. Nutrient limitation induced clear modifications on the expression of most studied genes: lack of nitrogen provoked an initial increase, followed by a marked decrease; in the cases of phosphorus and iron starvation, a general, stronger expression decrease was observed, particularly striking in the case of iron. Darkness and addition of the photosynthethic inhibitors DCMU and DBMIB also had a strong effect on gene expression. Methionine sulfoximine and azaserine, inhibitors of glutamine synthetase and glutamate synthase, respectively, provoked a sharp increase in icd expression. These results, together with previous studies, suggest that 2-oxoglutarate could be the molecule utilized by Prochlorococcus to sense the C/N balance. Besides, our results confirm the different regulation of nitrogen assimilation in Prochlorococcus with regard to other cyanobacteria.
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PMID:Expression of genes involved in nitrogen assimilation and the C/N balance sensing in Prochlorococcus sp. strain SS120. 1963 Feb 71

Perennial ryegrass (Lolium perenne L.) is the most important turf and forage grass species of the temperate regions. It requires substantial input of nitrogen fertilizer for optimum yield. Improved nitrogen use efficiency (NUE) is therefore one of the main breeding targets. However, limited knowledge is currently available on the genes controlling NUE in perennial ryegrass. The aim of the present study was to isolate genes involved in ammonium transport and assimilation. In silico screening of a Lolium EST-library using known sequences of tonoplast intrinsic proteins (TIPs) and cytosolic glutamine synthetase (GS1) revealed a number of homologous sequences. Using these sequences, primers were designed to obtain the full-length sequences by RACE-PCR. Three TIP genes (LpTIP1;1, LpTIP1;2 and LpTIP2;1) and two GS genes (LpGS1a and LpGS1b) were isolated. Characterization in S. cerevisiae confirmed a function in ammonium transport for LpTIP1;1 and LpTIP2;1 and in synthesis of glutamine for LpGS1a and LpGS1b. Cytoimmunochemical studies showed that GS protein was present in the chloroplasts and cytosol of leaf cells, while TIP1 proteins localized to the tonoplast. At the expression level, Lolium GS1 genes responded to N starvation and re-supply in a manner consistent with functions in primary N assimilation and N remobilization. Similarly, the expression of LpTIPs complied with a role in vacuolar ammonium storage. Together, the reported results provide new understanding of the genetic basis for N assimilation and storage in ryegrass.
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PMID:Cloning, characterization and expression analysis of tonoplast intrinsic proteins and glutamine synthetase in ryegrass (Lolium perenne L.). 1965 46

The multicellular behavior of the myxobacterium Myxococcus xanthus requires the participation of an elevated number of signal-transduction mechanisms to coordinate the cell movements and the sequential changes in gene expression patterns that lead to the morphogenetic and differentiation events. These signal-transduction mechanisms are mainly based on two-component systems and on the reversible phosphorylation of protein targets mediated by eukaryotic-like protein kinases and phosphatases. Among all these factors, protein phosphatases are the elements that remain less characterized. Hence, we have studied in this work the physiological role and biochemical activity of the protein phosphatase of the family PPP (phosphoprotein phosphatases) designated as Pph2, which is forming part of the same operon as the two-component system phoPR1. We have demonstrated that this operon is induced upon starvation in response to the depletion of the cell energy levels. The increase in the expression of the operon contributes to an efficient use of the scarce energy resources available for developing cells to ensure the completion of the life cycle. In fact, a Deltapph2 mutant is defective in aggregation, sporulation yield, morphology of the myxospores, and germination efficiency. The yeast two-hybrid technology has shown that Pph2 interacts with the gene products of MXAN_1875 and 5630, which encode a hypothetical protein and a glutamine synthetase, respectively. Because Pph2 exhibits Ser/Thr, and to some extent Tyr, Mn(2+)-dependent protein phosphatase activity, it is expected that this function is accomplished by dephosphorylation of the specific protein substrates.
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PMID:Myxococcus xanthus Pph2 is a manganese-dependent protein phosphatase involved in energy metabolism. 1970 4

Exclusion of combined nitrogen (NaNO3) from the growth medium caused certain changes in metabolic processes leading to cessation in growth of the non-heterocystous, non nitrogen-fixing marine cyanobacterium Oscillatoria willei BDU 130511. But antioxidative enzymes, namely superoxide dismutase and peroxidase, helped the organism to survive the nitrogen stress. Prominent effects observed during nitrogen starvation/limitation were: (i) reduction of major and accessory photosynthetic pigments, (ii) impairment of photosynthesis due to loss of one major Rubisco isoenzyme, (iii) reduced synthesis of lipids and fatty acids, (iv) modifications of protein synthesis leading to the repression of three polypeptides and synthesis of two new polypeptides, (v) enhanced glutamine synthetase and reduced nitrate reductase activities, (vi) enhanced production of hydrogen peroxide and (vii) induced appearance of four new peroxidase isoenzymes. The observed metabolic changes were reversible, and the arrested growth under prolonged nitrogen deficiency could be fully restored upon subculturing in freshly prepared ASN III medium containing nitrogen (NaNO3). The present study demonstrates the capability of a non-nitrogen-fixer to withstand nitrogen stress making it an ecologically successful organism in the marine environment. The above pleiotropic effects of nitrogen deficiency also demonstrate that nitrogen plays a crucial role in growth and metabolism of marine cyanobacteria.
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PMID:Nitrogen stress induced changes in the marine cyanobacterium Oscillatoria willei BDU 130511. 1971 95

Mono-ADP-ribosylation is the enzymatic transfer of ADP-ribose from NAD(+) to acceptor proteins catalyzed by ADP-ribosyltransferases. Using m-aminophenylboronate affinity chromatography, 2D-gel electrophoresis, in-gel digestion and MALDI-TOF analysis we have identified eight in vitro ADP-ribosylated proteins in Streptomyces coelicolor, which can be classified into three categories: (i) secreted proteins; (ii) metabolic enzymes using NAD(+)/NADH or NADP(+)/NADPH as coenzymes; and (iii) other proteins. The secreted proteins could be classified into two functional categories: SCO2008 and SC05477 encode members of the family of periplasmic extracellular solute-binding proteins, and SCO6108 and SC01968 are secreted hydrolases. Dehydrogenases are encoded by SC04824 and SC04771. The other targets are GlnA (glutamine synthetase I., SC02198) and SpaA (starvation-sensing protein encoded by SC07629). SCO2008 protein and GlnA had been identified as ADP-ribosylated proteins in previous studies. With these results we provided experimental support for a previous suggestion that ADP-ribosylation may regulate membrane transport and localization of periplasmic proteins. Since ADP-ribosylation results in inactivation of the target protein, ADP-ribosylation of dehydrogenases might modulate crucial primary metabolic pathways in Streptomyces. Several of the proteins identified here could provide a strong connection between protein ADP-ribosylation and the regulation of morphological differentiation in S. coelicolor.
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PMID:Analysis and identification of ADP-ribosylated proteins of Streptomyces coelicolor M145. 1985 27

Adenylyltransferases regulate glutamine synthetase activity in enterobacteria and actinomycetes such as Streptomyces coelicolor, Mycobacterium tuberculosis and Corynebacterium glutamicum. In this study the effects of a mutation of the glnE gene, coding for adenylyltransferase, on transcriptome and metabolome profiles of C. glutamicum was investigated. As expected, the glnE deletion led to a loss of activity regulation of glutamine synthetase. Astonishingly, additionally the glnE mutation caused a nitrogen limitation response on the transcript level as well. Interestingly, induction of the nitrogen starvation response in the mutant strain was unusually weak and GlnK was present in adenylylated form even without nitrogen starvation. The results obtained might hint to a moonlighting function of adenylyltransferase and might be explained by protein interaction of adenylyltransferase and an unknown interaction partner of the nitrogen regulatory network.
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PMID:Impact of adenylyltransferase GlnE on nitrogen starvation response in Corynebacterium glutamicum. 1996 18

SUMMARY A non-pathogenic mutant of Colletotrichum acutatum, designated Ca5, exhibited epiphytic hyphal growth and did not cause lesions on strawberry plants but grew necrotrophically when inoculated directly onto wounded stolons. In the absence of an external nitrogen source, the mutant exhibited extended germ-tube growth prior to appressorium formation. The deduced product of the impaired gene (nir1) is similar to NirA, an Aspergillus nidulans transcriptional regulator of nitrogen metabolism. Inoculation of leaves with wild-type or Ca5 conidia in the presence of a preferred nitrogen source resulted in massive epiphytic hyphal production, appressorium formation and rapid symptom development. Expression of C. acutatum wild-type nitrate reductase (nit1) and glutamine synthetase (gln1) was induced by nitrate but only nit1 expression was repressed in a rich medium. nit1 transcription increased during the appressorium-production stage, indicating that nitrogen starvation constitutes a cue for the regulation of appressorium development. The presence of nit1 transcript during various phases of infection is indicative of partial nitrogen starvation in planta. cAMP-dependent protein kinase A (PKA) was determined to be a negative regulator of immediate post-germination appressoria formation in the wild-type. As inhibition of PKA activity in the nir1 mutant did not affect appressoria formation, we suggest that NIR1 acts either in parallel or downstream of the PKA pathway. Our results show that nir1 is a pathogenicity determinant and a regulator of pre-infection development under nitrogen-starvation conditions and that nitrogen availability is a significant factor in the pre-penetration phase.
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PMID:A defect in nir1, a nirA-like transcription factor, confers morphological abnormalities and loss of pathogenicity in Colletotrichum acutatum. 2050 51

We analyzed the effect of omission of sulfur (S) from the nutrient solution and then restoration of S-source on the uptake and assimilation of nitrate in rapeseed. Incubation in nutrient solution without S for 1-6 days led to decline in uptake of nitrate, activities, and expression levels of nitrate reductase (NR) and glutamine synthetase (GS). The nitrite reductase (NiR) and glutamate synthase (GOGAT) activities were not considerably affected. There was significant enhancement in nitrate content and decline in sulfate content. Evaluation of amino acid profile under S-starvation conditions showed two- to fourfold enhancement in the contents of arginine, asparagine and O-acetyl-L-serine (OAS), whereas the contents of cysteine and methionine were reduced heavily. When the S-starved plants were subjected to restoration of S for 1, 3, 5, and 7 days, activities and expression levels of NR and GS recovered within the fifth and seventh days of restoration, respectively. Exogenous supply of metabolites (arginine, asparagine, cysteine, glutamine, OAS, and methionine) also affected the uptake and assimilation of nitrate, with a maximum for OAS. These results corroborate the tight interconnection of S-nutrition with nitrate assimilation and that OAS plays a major role in this regulation. The study must be helpful in developing a nutrient-management technology for optimization of crop productivity.
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PMID:Sulfur starvation and restoration affect nitrate uptake and assimilation in rapeseed. 2055 52

Primary astrocyte cell cultures have become a valuable tool for studies of signaling pathways that regulate astrocyte physiology, reactivity, and function; however, differences in culture preparation affect data reproducibility. The aim of this work was to define optimal conditions for obtaining primary astrocytes from adult rat spinal cord with an expression profile most similar to adult human spinal cord astrocytes. Hence, we examined whether different Sprague-Dawley substrains and culture conditions affect astrocyte culture quality. Medium supplemented with fetal bovine serum from three sources (Sigma, Gibco, Hyclone) or a medium with defined composition (AM medium) was used to culture astrocytes isolated from spinal cords of adult Harlan and Charles River Spraque-Dawley rats. Purity was significantly different between cultures established in media with different sera. No microglia were detected in AM or Hyclone cultures. Gene expression was also affected, with AM cultures expressing the highest level of glutamine synthetase, connexin-43, and glutamate transporter-1. Interestingly, cell response to starvation was substrain dependent. Charles River-derived cultures responded the least, while astrocytes derived from Harlan rats showed a greater decrease in Gfap and glutamine synthetase, suggesting a more quiescent phenotype. Human and Harlan astrocytes cultured in AM media responded similarly to starvation. Taken together, this study shows that rat substrain and growth medium composition affect purity, expression profile and response to starvation of primary astrocytes suggesting that cultures of Harlan rats in AM media have optimal astrocyte characteristics, purity, and similarity to human astrocytes.
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PMID:Influence of rat substrain and growth conditions on the characteristics of primary cultures of adult rat spinal cord astrocytes. 2134 49


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