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Query: UNIPROT:P06889 (Mol)
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A full-length cDNA encoding glutamine synthetase (GS) was cloned from a lambda gt10 library of tobacco leaf RNA, and the nucleotide sequence was determined. An open reading frame accounting for a primary translation product consisting of 432 amino acids has been localized on the cDNA. The calculated molecular mass of the encoded protein is 47.2 kDa. The predicted amino acid sequence of this precursor shows higher homology to GS-2 protein sequences from other species than to a leaf GS-1 polypeptide sequence, indicating that the cDNA isolated encodes the chloroplastic isoform (GS-2) of tobacco GS. The presence of C- and N-terminal extensions which are characteristic of GS-2 proteins supports this conclusion. Genomic Southern blot analysis indicated that GS-2 is encoded by a single gene in the diploid genomes of both tomato and Nicotiana sylvestris, while two GS-2 genes are very likely present in the amphidiploid tobacco genome. Western blot analysis indicated that in etiolated and in green tomato cotyledons GS-2 subunits are represented by polypeptides of similar size, while in green tomato leaves an additional GS-2 polypeptide of higher apparent molecular weight is detectable. In contrast, tobacco GS-2 is composed of subunits of identical size in all organs examined. GS-2 transcripts and GS-2 proteins could be detected at high levels in the leaves of both tobacco or tomato. Lower amounts of GS-2 mRNA were detected in stems, corolla, and roots of tomato, but not in non-green organs of tobacco. The GS-2 transcript abundance exhibited a diurnal fluctuation in tomato leaves but not in tobacco leaves. White or red light stimulated the accumulation of GS-2 transcripts and GS-2 protein in etiolated tomato cotyledons. Far-red light cancelled this stimulation. The red light response of the GS-2 gene was reduced in etiolated seedlings of the phytochrome-deficient aurea mutant of tomato. These results indicate a phytochrome-mediated light stimulation of GS-2 gene expression during greening in tomato.
Plant Mol Biol 1992 Jun
PMID:Nucleotide sequence of a tobacco cDNA encoding plastidic glutamine synthetase and light inducibility, organ specificity and diurnal rhythmicity in the expression of the corresponding genes of tobacco and tomato. 137 62

DNA encoding the N-terminal 415 residues of the human thyrotrophin receptor (predicted to code for the large extracellular region) was introduced into Chinese hamster ovary (CHO) cells using the glutamine synthetase/cytomegalovirus amplifiable expression system, and into E. coli using the pGEX-3X expression vector. Substantial quantities of insoluble fusion protein product resulted from bacterial expression; by Western blot analysis, this was shown to be reactive with anti-receptor antibodies raised against a peptide corresponding to residues 313-330. Immunoreactivity was not retained by the solubilized protein. In eukaryotic expression, several successful CHO transfectants were observed and one (ExG2) was characterized thoroughly. Using agarose-bound Concanavalin A, a glycoprotein with an M(r) of approximately 60,000 was detected in a detergent extract of metabolically labelled ExG2 cells, agreeing with the predicted molecular size of 45,000, plus carbohydrate. The same protein could also be detected by immunoprecipitation using the experimental anti-peptide antisera and also sera from patients with Graves' disease. The protein was immunoreactive in Western blot analyses of ExG2 cells using the experimental antisera but not the pathological sera, supporting the view that linear sequences are not sufficient for autoantibody binding. These are the first studies in which visualization of eukaryotically expressed recombinant receptor by such immunological techniques has been possible, presumably because of the higher expression of the glutamine synthetase system. Surprisingly, the recombinant protein was retained within the cells rather than being secreted. The recombinant protein was very effective at absorbing the adenylate cyclase-stimulating activity of the sera from patients with Graves' disease, but not that of thyrotrophin. This suggests that the large N-terminal extracellular region contains epitopes for stimulatory autoantibodies, but that high affinity thyrotrophin binding requires additional components.
J Mol Endocrinol 1992 Dec
PMID:Characterization of the extracellular region of the human thyrotrophin receptor expressed as a recombinant protein. 147 10

The activities and biotin-dependence of the three mitochondrial biotin-dependent carboxylases: pyruvate carboxylase, propionyl CoA carboxylase, and beta-methylcrotonyl CoA carboxylase of primary culture of astrocytes have been examined. An increase of the three mitochondrial carboxylase activities was observed during cell growth, as was the case for developing rat brain. Mitochondrial carboxylase activities from 3-wk-old primary cultures of astrocytes were higher than those in the neonatal rat brain. When astrocytes were grown in a 10% serum-enriched medium supplemented with avidin to bind biotin, the mitochondrial carboxylase activities were reduced to 15% of control value. Consistent with these results, after 3 wk in culture, the 3-hydroxyisovaleric acid concentration in the growth medium was tenfold higher than the controls. In this culture condition, cellular growth and the nonbiotin-dependent enzyme, glutamine synthetase, were not modified with respect to control. Primary cultures from newborn rat brain hemispheres are suggested as an experimental approach to the study of biotin deficiency in nervous tissue.
Mol Chem Neuropathol
PMID:Primary cultures of astrocytes from rat as a model for biotin deficiency in nervous tissue. 152 Apr 5

We recently reported the 5'-flanking nucleotide sequence of a putative glutamine synthetase (GS) gene from 3T3-L1 cells (Bhandari, B., Beckwith, K. D. & Miller, R. E. (1988) Proc. Natl. Acad. Sci. U.S.A. 85, 5789-5793). We now find that this gene (GSr) has many, but not all, of the characteristics of a typical retroposon. It lacks introns, it contains a short poly(A) tract at its 3' end; it is flanked by 10-base pair (bp) direct repeats; and it corresponds closely at its 5' end to the transcription start site of the intron-containing GS gene (GSi) (Kuo, C. F. & Darnell, J. E., Jr. (1989) J. Mol. Biol. 208, 45-56). GSr includes a full-length, uninterrupted coding sequence that differs little (less than 5%) from that of the intron-containing gene. By contrast, the 5'-flanking sequence of GSr has no similarity with that of GSi. The first 1,029 bp of the GSr 5'-flanking sequence drives expression of a promoterless bacterial chloramphenical acetyltransferase (CAT) gene in transfected HeLa cells at a level comparable to that of the Rous sarcoma virus promoter. Analysis of variably deleted GSrCAT fusions genes in both HeLa and 3T3-L1 cells indicates that full promoter activity of the 1,029-bp sequence requires greater than 348 bp. Moreover, nuclear extract from 3T3-L1 adipocytes as well as murine liver protects four segments in the GSr 5'-flanking sequence from DNase I digestion. Nevertheless, reverse transcription of RNA from 3T3-L1 adipocytes, mouse adipocytes, or mouse liver followed by primer-directed enzymatic amplification of the reverse transcripts reveals the presence of GSi transcripts but the absence of GSr transcripts. Thus, the 5'-flanking sequence of GSr is an active promoter that drives transcription of GSrCAT fusion genes and includes binding domains for proteins that have the potential to regulate transcription. We conclude that the intronless murine GS gene isolated from 3T3-L1 cells arose as a retroposon that was inserted into the genome downstream of a potentially active promoter.
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PMID:A functional promoter flanks an intronless glutamine synthetase gene. 167 62

Glutamine synthetase catalyzes the formation of glutamine from glutamate and ammonia. It plays a central role in both amino acid neurotransmitter metabolism and ammonia detoxification in the central nervous system. Glutamine synthetase expression is regulated in developmental, hormonal, and in tissue- and cell-specific manners. We have cloned a full-length cDNA coding for rat glutamine synthetase, and have found an AT-rich area of conservation in the 3' untranslated regions between rat, mouse, and chicken, which may play a part in the regulation of the stability of the glutamine synthetase message. We have also cloned and mapped the gene coding for rat glutamine synthetase, and identified, by sequence analysis, areas potentially important for the regulation of glutamine synthetase transcription. Transient transfection of a variety of cell lines with deletion constructs of the glutamine synthetase promoter driving a chloramphenicol acetyltransferase reporter gene functionally demonstrates regions of the promoter containing elements important for transcriptional regulation.
Brain Res Mol Brain Res 1991 Feb
PMID:Cloning and functional characterization of the rat glutamine synthetase gene. 167 54

Astrogliosis is a prominent feature in the CNS of the dysmyelinating mutant, jimpy. In the following study the expression of the glial markers, glial fibrillary acidic protein (GFAP) and glutamine synthetase (GS) mRNAs were examined the cerebra of normal and jimpy mice. The relative abundance of GFAP and GS mRNAs increased rapidly in the CNS of normal mice during the first two postnatal weeks. During the third week the content of GFAP and GS mRNA remained constant. The pattern of developmental accumulation of these transcripts in jimpy animals was distinctly different. Levels of GFAP transcripts in 6- and 10-day-old jimpy animals were essentially the same as controls. In 14-day-old animals, however, the content of GFAP mRNA in jimpy had increased dramatically, and was 3-fold greater than that found in normal animals. The levels of GFAP message remained significantly elevated above control values for the life of the animals, approximately 22-24 days. In contrast, no significant difference in GS mRNA content was detected between control and jimpy brain tissue. The results of this study indicated that increased accumulation of GFAP mRNA was significant component of reactive gliosis and that the mechanisms responsible for the induction of GFAP were dissociated from those that regulate GS expression.
Brain Res Mol Brain Res 1991 Mar
PMID:Developmental expression of glial fibrillary acidic protein and glutamine synthetase mRNAs in normal and jimpy mice. 167 13

Brain is extremely susceptible to oxidative damage. Utilizing a series of novel approaches, we have demonstrated that oxidative damage occurs during an ischemia/reperfusion insult (IRI) to brain. Thus, we have demonstrated that an IRI to Mongolian gerbil brain results in: (1) an enhanced rate of salicylate hydroxylation, implicating an increased flux of hydroxyl free radicals; (2) an enhanced flux of free radicals as determined by spin-trapping; (3) an enhanced level of endogenous protein oxidation; (4) a decrease in glutamine synthetase (GS) activity, an enzyme very sensitive to oxidative damage; and (5) demonstration of protection from an IRI by administering the spin-trapping agent alpha-phenyl-tert-butyl nitrone (PBN). The novel observation that PBN offers protection from the lethality brought on by a brain IRI appears to be clearly linked to the ability of the administered spin-trap to inhibit oxidative damage as evidenced by the decreased amount of brain protein oxidation and the prevention of an IRI-mediated loss of GS activity in treated animals. Aged gerbils are more sensitive to the lethal action of a brain IRI than younger animals, but they are protected by PBN administration as are the younger animals. Older gerbils have a significantly higher level of oxidized protein in the brain. Older gerbils have decreased activities of GS and neutral protease, the enzyme that removes oxidized protein, than younger animals. Chronic twice daily administration of PBN (32 mg/kg) for 14 days to older animals significantly lowered brain oxidized protein levels and raised GS and neutral protease activity to those observed in younger animals. Cessation of PBN administration resulted in a time-dependent restoration of protein oxidation levels and enzyme activities back to those observed prior to spin-trap administration. Older gerbils exhibit significantly higher errors in a radial arm maze than younger animals, but older gerbils that had received chronic daily treatments of PBN (32 mg/kg) for 14 days committed significantly less errors than untreated controls. The errors committed in PBN-treated animals was decreased down to the level of those observed in younger animals. Clearly the spin-trapping agent, PBN, appears to have promise in: (1) elucidation of the role of oxidative damage in normal brain function during aging, (2) understanding the development of pathological conditions, and (3) development of treatment regimens for prevention of damage that occurs during the development of pathological conditions and in aging.
J Mol Neurosci 1991
PMID:Protection against oxidative damage to CNS by alpha-phenyl-tert-butyl nitrone (PBN) and other spin-trapping agents: a novel series of nonlipid free radical scavengers. 167 44

Using Rous sarcoma virus as the vector, v-src or c-src genes were introduced into 6-day chicken embryo retina tissue in organ culture and their effects on retina development were investigated. Overexpression of c-src in many of the cells had no noticeable effect on retina development. In contrast, infection with v-src resulted in abnormal histogenesis and inhibition of differentiation. Although only a portion of the cells in infected tissue expressed the oncogene and displayed the transformation phenotype, the other cells were also hindered from becoming normally positioned and organized. Therefore, presence of oncogene-transformed cells within the tissue hindered organization and development of adjacent nontransformed cells. Failure of normal cell relationships impeded induction by cortisol of glutamine synthetase in Muller glia, which requires contact associations of the glia cells with neurons. The transformed cells tended to assemble into chaotic clusters, suggesting that their adhesiveness and contact affinities had become altered. This was confirmed by aggregation experiments with dissociated cells which showed that adhesiveness of transformed cells was greatly reduced and that they had lost the ability to cohere with nontransformed cells. In binary mixtures of transformed and nontransformed cells, the two sorted out into separate aggregates. Transformed cells formed loose clusters devoid of tissue architecture; aggregates of nontransformed cells became organized into retinotypic structures, and glutamine synthetase was inducible. Our findings suggest that the mechanisms of cell adhesion and cell affinities are a key target of v-src activity in infected cells and that modification of the cell surface may be a leading factor in other cellular changes characteristic of the v-src transformation phenotype.
Mol Cell Biol 1991 Oct
PMID:Expression of v-src in embryonic neural retina alters cell adhesion, inhibits histogenesis, and prevents induction of glutamine synthetase. 168 25

We previously demonstrated that glutamine synthetase (GS) and ornithine aminotransferase (OAT) mRNAs are expressed in the mouse liver acinus preferentially in pericentral hepatocytes, that is, those immediately surrounding terminal central veins (A.L. Bennett, K.E. Paulson, R.E. Miller, and J.E. Darnell, Jr., J. Cell Biol. 105:1073-1085, 1987, and F.C. Kuo, W.L. Hwu, D. Valle, and J.E. Darnell, Jr., Proc. Natl. Acad. Sci. USA, in press). We now show that hepatocytes surrounding large collecting hepatic veins but not portal veins also express these two mRNAs. The pericentral hepatocytes are the most distal hepatocytes with respect to acinar blood flow, whereas this is not necessarily the case for hepatocytes next to the large collecting hepatic veins. This result implies that it is contact with some hepatic venous element which signals positional expression. In an effort to induce conditions that change relationships between hepatocytes and blood vessels, regenerating liver was studied. After surgical removal of two-thirds or more of the liver, there was no noticeable change in GS or OAT expression in the remaining liver tissue during regeneration. However, treatment with carbon tetrachloride (CCl4), which specifically kills pericentral hepatocytes, completely removed GS- and OAT-containing cells and promptly halted hepatic transcription of GS. Repair of CCl4 damage is associated with invasion of inflammatory and scavenging cells, which remove dead hepatocytes to allow regrowth. Only when hepatocytes resumed contact with pericentral veins were the pretreatment levels of OAT and GS mRNA and high levels of GS transcription restored.
Mol Cell Biol 1991 Dec
PMID:Evidence that interaction of hepatocytes with the collecting (hepatic) veins triggers position-specific transcription of the glutamine synthetase and ornithine aminotransferase genes in the mouse liver. 168 97

The GLN3 gene of Saccharomyces cerevisiae is required for the activation of transcription of a number of genes in response to the replacement of glutamine by glutamate as source of nitrogen. We cloned the GLN3 gene and constructed null alleles by gene disruption. GLN3 is not essential for growth, but increased copies of GLN3 lead to a drastic decrease in growth rate. The complete nucleotide sequence of the GLN3 gene was determined, revealing one open reading frame encoding a polypeptide of 730 amino acids, with a molecular weight of approximately 80,000. The GLN3 protein contains a single putative Cys2/Cys2 zinc finger which has homology to the Neurospora crassa NIT2 protein, the Aspergillus nidulans AREA protein, and the erythroid-specific transcription factor GATA-1. Immunoprecipitation experiments indicated that the GLN3 protein binds the nitrogen upstream activation sequence of GLN1, the gene encoding glutamine synthetase. Neither control of transcription nor control of initiation of translation of GLN3 is important for regulation in response to glutamine availability.
Mol Cell Biol 1991 Dec
PMID:Sequence and expression of GLN3, a positive nitrogen regulatory gene of Saccharomyces cerevisiae encoding a protein with a putative zinc finger DNA-binding domain. 168


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