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Query: UNIPROT:P06889 (Mol)
 630,302 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

HTC cell variants chosen for their lack of tyrosine aminotransferase (EC 2.6.1.5) (TAT) induction by glucocorticoids were tested for interrelated effects on other glucocorticoid responses: TAT induction by dibutyryl cyclic AMP (dBcAMP) +/- dexamethasone, glutamine synthetase (GS) induction, cyclic nucleotide phosphodieterase (PDE) suppression, inhibition of alpha-aminoisobutyric acid (AIB) uptake, inhibition of plasminogen activator (PA), and induction of mouse mammary tumor virus (MTV). Loss of TAT induction by steroid was accompanied by loss of TAT induction by dBcAMP and of PDE suppression by steroid. In addition, subclones of MTV-infected cells were examined for the effect of the virus on glutamine synthetase (GS) and TAT induction. The virus had no effect on their induction in wild-type cells and no effect on GS induction in the variants. One MTV-infected subclone from a TAT variant, however, showed significant return of TAT induction.
Mol Cell Endocrinol 1979 Sep
PMID:Unlinked control of multiple glucocorticoid-induced processes in HTC cells. 3 58

Mutants of Escherichia coli K12 requiring glutamine as a nitrogen source were isolated, and characterized as lacking glutamine synthetase activity. Temperature sensitive revertants of one of the mutants had a heat labile glutamine synthetase, while temperature insensitive revertants had a glutamine synthetase which was thermostable in vitro, indicating that the mutation was in the structural gene for the enzyme. All of the mutations mapped in the same region of the chromosome suggesting that they might all be in the same gene. The glutamine synthetase gene (gln) was located on the E. coli chromosome by conjugation and P1-mediated transduction at minute 77. The gln gene cotransduced with the genes for oleate degradation (old), and the genes for L-rhamnose utilization (rha). The most probable gene order is old-gln-rha.
Mol Gen Genet 1975
PMID:The isolation and characterization of glutamine-requiring strains of Escherichia coli K12. 24 28

In order to produce significant quantities of the human thyrotrophin (TSH) receptor we have investigated the use of two eukaryotic high expression systems. DNA encoding the receptor was obtained by the polymerase chain reaction (PCR) applied to thyroid cDNA. Receptor DNA was inserted into the baculovirus system; despite high mRNA levels there was little or no demonstrable protein production. However, using a novel amplifiable glutamine synthetase system, clones of transfected Chinese hamster ovary (CHO) cells expressed a high affinity TSH receptor (KD 0.225 +/- 0.046 nM, Bmax 20,000-45,000 sites/cell for individual clones). This was coupled to adenylate cyclase as measured by a TSH-stimulatable increase in extracellular cyclic AMP (cAMP), a detectable response being noted at 1 microU/ml TSH with half-maximal at around 25-50 microU/ml. The high expression allowed detection of both TSH binding inhibition and adenylate cyclase stimulation by autoantibodies in unfractionated sera from patients with Graves' disease.
Mol Cell Endocrinol 1992 Feb
PMID:The use of the amplifiable high-expression vector pEE14 to study the interactions of autoantibodies with recombinant human thyrotrophin receptor. 131 88

A novel clonal cell line derived from a human glioma (HOG) was found to express some oligodendrocyte-specific proteins including a 15-kDa form of myelin basic protein (MBP) and high 2',3'-cyclic nucleotide 3'-phosphodiesterase (CNPase) activity. Expression of the myelin lipids galactosylceramide and sulfogalactosylceramide (sulfatide) was low. HOG cells did not express the characteristic astrocyte markers glial fibrillary acidic protein (GFAP) or significant glutamine synthetase (GS) activity. After initial plating, HOG cells were flat and epitheloid and thus showed a limited oligodendrocyte-like morphology. However, after cells became more confluent, some cells were phase-bright and elaborated short processes. Receptor types expressed by HOG cells included A2-adenosine, prostaglandin E1 (PGE1), and beta 2-adrenergic receptors (beta-ARs) linked to stimulation of adenylate cyclase, and muscarinic cholinergic and H1-histamine coupled to phosphatidyinositol turnover (Post and Dawson, 1991). HOG cells should therefore provide a useful model for studying the extracellular regulation and phosphorylation of oligodendrocyte-specific proteins.
Mol Chem Neuropathol 1992 Jun
PMID:Characterization of a cell line derived from a human oligodendroglioma. 132 95

In vivo dimethyl sulfate footprinting of the Bacillus subtilis glnRA regulatory region under repressing and derepressing conditions demonstrated that the GlnR protein, encoded by glnR, interacts with two sites situated within and adjacent to the glnRA promoter. One site, glnRAo1, between positions -40 and -60 relative to the start point of transcription, is a 21-bp symmetrical element that has been identified as essential for glnRA regulation (H. J. Schreier, C. A. Rostkowski, J. F. Nomellini, and K. D. Hirschi, J. Mol. Biol. 220:241-253, 1991). The second site, glnRAo2, is a quasisymmetrical element having partial homology to glnRAo1 and is located within the promoter between positions -17 and -37. The symmetry and extent of modifications observed for each site during repression and derepression indicated that GlnR interacts with the glnRA regulatory region by binding to both sites in approximately the same manner. Experiments using potassium permanganate to probe open complex formation by RNA polymerase demonstrated that transcriptional initiation is inhibited by GlnR. Furthermore, distortion of the DNA helix within glnRAo2 occurred upon GlnR binding. While glutamine synthetase, encoded by glnA, has been implicated in controlling glnRA expression, analyses with dimethyl sulfate and potassium permanganate ruled out a role for glutamine synthetase in directly influencing transcription by binding to operator and promoter regions. Our results suggested that inhibition of transcription from the glnRA promoter involves GlnR occupancy at both glnRAo1 and glnRAo2. In addition, modification of bases within the glnRAo2 operator indicated that control of glnRA expression under nitrogen-limiting (derepressing) conditions included the involvement of a factor(s) other than GlnR.
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PMID:Interaction of the Bacillus subtilis glnRA repressor with operator and promoter sequences in vivo. 134 63

The gln-delta gene, which encodes the plastid-located glutamine synthetase of Phaseolus vulgaris, was cloned and its promoter region was sequenced. Primer extension analysis was used to map the two major transcription initiation sites which are about 90 nucleotides apart. A fusion of 2.3 kb of the upstream region of the gln-delta gene to the reporter gene uidA encoding beta-glucuronidase was shown to be expressed in the chlorophyllous cell types of leaves and stems and in the root meristem region of transgenic tobacco. Analysis of a series of three 5' promoter deletion fusions revealed the presence of a region essential for promoter activity between -786 and -327 and regions involved in tissue-specific regulation and light regulation between -786 and +43.
Plant Mol Biol 1992 Apr
PMID:Characterization of the gene encoding the plastid-located glutamine synthetase of Phaseolus vulgaris: regulation of beta-glucuronidase gene fusions in transgenic tobacco. 135 Sep 31

The 5'-flanking region of gln-gamma, the nodule-enhanced glutamine synthetase gene from Phaseolus vulgaris L., has been analysed for cis-regulatory elements using a series of 5' deletions and hybrid gln-gamma:: CaMV 35S promoters. The promoters were fused to the uidA reporter gene and their activities tested in two heterologous expression systems. In the first system, the chimaeric genes were transferred to Lotus corniculatus L. using Agrobacterium rhizogenes and their expression was studied in nodulated hairy roots. In the second system, the constructs were electroporated into tobacco mesophyll protoplasts. The results of the 5' deletion analysis showed that the sequence between -597 and -21 (relative to the ATG codon) was sufficient for nodule-specific expression of the chimaeric gene in nodulated hairy roots, and revealed the existence of at least two positive regulatory elements. Sequences located between -2000 and -597 were able to stimulate expression in nodules but not protoplasts, while the region from -597 to -354 enhanced expression in both nodules and protoplasts. Results obtained with the hybrid gln-gamma::35S promoters showed that two overlapping restriction fragments (-516/-343 and -474/-293) were able to stimulate expression from a heterologous promoter in an orientation-dependent manner. Previous work has demonstrated the presence of conserved A/T-rich binding sites for nuclear proteins in the region between -516 and -446, and their possible role in regulating gln-gamma expression is discussed.
Plant Mol Biol 1992 Aug
PMID:Functional analysis of the promoter region of a nodule-enhanced glutamine synthetase gene from Phaseolus vulgaris L. 135 92

The amount of agonist activity displayed by the antiglucocorticoid dexamethasone mesylate (Dex-Mes) for the induction of tyrosine aminotransferase (TAT) in rat hepatoma cells is greater than for glutamine synthetase and varies over a period of weeks. This variation, which has been reproduced over a period of 40 h by changing the density of the cells, suggests the involvement of a trans-acting factor. The target of this proposed trans-acting factor has now been localized to the region between -3.9 to -2.9 of the rat TAT gene from experiments with cells that were stably transfected with hybrid TAT/CAT constructs. Deletion experiments with transiently transfected TAT/tk promoter/CAT constructs revealed that this entire activity could be conveyed by a 21 bp sequence of the TAT gene. Gel shift experiments support the binding of a factor(s) to this 21 bp sequence. Thus the activity of the antagonist Dex-Mes is relatively independent of steroid structure and is largely determined by the further interactions of a trans-acting factor with the cis-acting sequence. We call this novel sequence a glucocorticoid modulatory element. A model is advanced which accounts for almost all of the results concerning TAT induction by glucocorticoids. This same model may also be useful in explaining why the amount of agonist activity of most antisteroids varies, even for different genes within the same cell.
J Steroid Biochem Mol Biol 1992 Sep
PMID:Modulation of the agonist activity of antisteroids by a novel cis-acting element. 135 17

The evolution of uricoteley as a mechanism for hepatic ammonia detoxication in vertebrates required targeting of glutamine synthetase (GS) to liver mitochondria in the sauropsid line of descent leading to the squamate reptiles and archosaurs. Previous studies have shown that in birds and crocodilians, sole survivors of the archosaurian line, hepatic GS is translated without a transient, N-terminal targeting signal common to other mitochondrial matrix proteins. To identify a putative internal targeting sequence in the avian enzyme, the amino acid sequence of chicken liver GS was derived by a combination of sequencing of cloned cDNA, direct sequencing of mRNA, and sequencing of polymerase chain reaction (PCR) products amplified from reverse-transcribed mRNA. Analysis of the first 20 or so N-terminal amino acids of the derived sequence for the chicken enzyme shows that they are devoid of acidic amino acids, contain several hydroxy amino acids, and can be predicted to form a positively charged, amphipathic helix, all of which are characteristic properties of mitochondrial targeting signals. A comparison of the N-terminus of chicken GS with the N-termini of cytosolic mammalian GSs indicates that at least three amino acid replacements may have been responsible for converting the N-terminus of the cytosolic mammalian enzyme into a mitochondrial targeting signal. Two of these, His15 and Lys19, result in additional positive charges, as well as in changes in hydrophilicity. Both could have resulted from third-base-codon substitutions. A third replacement, Ala12, may contribute to the helicity of the N-terminus of the chicken enzyme. The N-terminus of the cytosolic chicken brain GS (positions 1-36) was found to be identical to that of the liver enzyme. The complete sequence of chicken retinal GS is also identical to that of the liver enzyme. GS is coded by a single gene in birds, so these sequence data suggest that, unlike the situation in other tissue-specific compartmental isozymes, differential targeting of avian GS to the mitochondrial or cytosolic compartments is not dependent on the sequence of the primary translation product of its mRNA but may involve some other tissue-specific factor(s).
Mol Biol Evol 1992 Sep
PMID:Metabolic compartmentation of vertebrate glutamine synthetase: putative mitochondrial targeting signal in avian liver glutamine synthetase. 135 23

Glutamine synthetase (GS; EC 6.3.1.2) is present in different subcellular compartments in plants. It is located in the cytoplasm in root and root nodules while generally present in the chloroplasts in leaves. The expression of GS gene(s) is enhanced in root nodules and in soybean roots treated with ammonia. We have isolated four genes encoding subunits of cytosolic GS from soybean (Glycine max L. cv. Prize). Promoter analysis of one of these genes (GS15) showed that it is expressed in a root-specific manner in transgenic tobacco and Lotus corniculatus, but is induced by ammonia only in the legume background. Making the GS15 gene expression constitutive by fusion with the CaMV-35S promoter led to the expression of GS in the leaves of transgenic tobacco plants. The soybean GS was functional and was located in the cytoplasm in tobacco leaves where this enzyme is not normally present. Forcing this change in the location of GS caused concomitant induction of the mRNA for a native cytosolic GS in the leaves of transgenic tobacco. Shifting the subcellular location of GS in transgenic plants apparently altered the nitrogen metabolism and forced the induction in leaves of a native GS gene encoding a cytosolic enzyme. The latter is normally expressed only in the root tissue of tobacco. This phenomenon may suggest a hitherto uncharacterized metabolic control on the expression of certain genes in plants.
Plant Mol Biol 1992 Oct
PMID:Forcing expression of a soybean root glutamine synthetase gene in tobacco leaves induces a native gene encoding cytosolic enzyme. 135 1


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