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Query: EC:2.3.1.28 (
chloramphenicol acetyltransferase
)
5,100
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
The cat-86 gene in plasmid pPL603 specifies
chloramphenicol acetyltransferase
(
CAT
) and is selectively expressed in Bacillus subtilis at a stage in sporulation in which internal spores are first observed (approximately T8). The gene is unexpressed in vegetatively growing cells. cat-86 expression and spore formation are both blocked when cells are grown in excess
glucose
. cat-86 expression at T8 is due to selective transcription of the gene, since cat-86 mRNA is undetectable in vegetatively growing cells but is readily demonstrated in sporulating cells. The transcription start site for cat-86 mRNA from sporulating cells is within a 203-base-pair restriction fragment designated P1, which is located upstream from the cat coding region on pPL603 . Deletion of P1 from pPL603 eliminates the sporulation -associated expression of cat-86. Host sporulation genes, whose function is absolutely required for cat-86 expression at T8, include six early sporulation, spo0 , genes and spoIIE . Therefore, pPL603 provides a novel system in which the in vivo expression of a known, plasmid-linked gene is dependent on sporulation-specific changes in B. subtilis.
...
PMID:Selective expression of a plasmid cat gene at a late stage of Bacillus subtilis sporulation. 642 70
The expression parameters were determined at different phases of batch growth of Escherichia coli JM101/pYEJ001 in complex medium and at different conditions of
glucose
addition. Thus the plasmid content, the RNA content, the RNA synthesis rate, the specific recombinant mRNA content, the specific recombinant mRNA synthesis rate, the recombinant
chloramphenicol acetyltransferase
content, and the overall protein synthesis rate were determined during growth with no
glucose
, with initial
glucose
, with
glucose
feeding during stationary phase, and with initial
glucose
plus
glucose
feeding during stationary phase. The results show that the specific rate of total RNA synthesis was enhanced in the presence of
glucose
at both exponential and stationary phases, while recombinant mRNA synthesis was enhanced only at stationary phase by
glucose
feeding. However, the steady-state level of the recombinant mRNA was not changed under the same conditions. In addition, although the overall protein synthesis rate at exponential phase was enhanced in the presence of
glucose
, the specific recombinant protein level was unaffected. The specific synthesis rate of recombinant mRNA varied inversely with the plasmid content during exponential and stationary phases. Furthermore, changes in the specific activity of the recombinant protein were not correlated with either the changes in the specific synthesis rate of the recombinant mRNA or the overall protein synthesis rate. Therefore, the specific activity of the recombinant protein is not universally limited by its gene transcription rate or the overall protein synthesis capacity.
...
PMID:Effect of glucose on the expression parameters of recombinant protein in Escherichia coli during batch growth in complex medium. 751 29
We demonstrate that the cauliflower mosaic virus (CaMV) gene VI product can transactivate the expression of a reporter gene in bakers' yeast, Saccharomyces cerevisiae. The gene VI coding sequence was placed under the control of the galactose-inducible promoter GAL1, which is presented in the yeast shuttle vector pYES2, to create plasmid JS169. We also created a
chloramphenicol acetyltransferase
(
CAT
) reporter plasmid, JS161, by inserting the
CAT
reporter gene in-frame into CaMV gene II and subsequently cloning the entire CaMV genome into the yeast vector pRS314. When JS161 was transformed into yeast and subsequently assayed for
CAT
activity, only a very low level of
CAT
activity was detected in cellular extracts. To investigate whether the CaMV gene VI product would mediate an increase in
CAT
activity, we cotransformed yeast with JS169 and JS161. Upon induction with galactose, we found that
CAT
activity in yeast transformed with JS161 and JS169 was about 19 times higher than the level in the transformants that contained only JS161.
CAT
activity was dependent on the presence of the gene VI protein, because essentially no
CAT
activity was detected in yeast cells grown in the presence of
glucose
, which represses expression from the GAL1 promoter. RNase protection assays showed that the gene VI product had no effect on transcription from the 35S RNA promoter, demonstrating that regulation was occurring at the translation level. This yeast system will prove useful for understanding how the gene VI product of CaMV mediates the translation of genes present on a eukaryotic polycistronic mRNA.
...
PMID:Expression of a plant viral polycistronic mRNA in yeast, Saccharomyces cerevisiae, mediated by a plant virus translational transactivator. 756 42
Phosphoenolpyruvate carboxykinase (PEPCK) catalyzes the rate-limiting step in hepatic gluconeogenesis. Glucagon (via the second messenger cAMP) and glucocorticoids stimulate the transcription of the PEPCK gene, whereas insulin and phorbol esters inhibit, in a dominant fashion, these effects. Wortmannin, an inhibitor of phosphatidylinositol 3-kinase, prevents the stimulation of glycogen synthesis,
glucose
transport, mitogen-activated protein kinase, and p70/p85 ribosomal S6 protein kinase by insulin. We now show that wortmannin can also block the inhibition of glucocorticoid- and cAMP-stimulated PEPCK gene expression by insulin. PEPCK-
chloramphenicol acetyltransferase
fusion gene experiments demonstrate that wortmannin blocks an activity that is required for insulin signaling to elements within the PEPCK promoter. Phorbol esters mimic the action of insulin on the regulation of PEPCK gene expression, but wortmannin does not block the effect of these agents. Thus, phosphatidylinositol 3-kinase is required for the regulation of PEPCK gene expression by insulin, but not by phorbol esters. The immunosuppressant rapamycin, a potent inhibitor of insulin or phorbol ester stimulation of p70/p85 ribosomal S6 protein kinase, has no significant effect on the regulation of PEPCK gene expression by insulin or phorbol esters. Thus, p70/p85 ribosomal S6 protein kinase does not have a role in signaling to the PEPCK promoter by insulin or phorbol esters.
...
PMID:Phosphatidylinositol 3-kinase, but not p70/p85 ribosomal S6 protein kinase, is required for the regulation of phosphoenolpyruvate carboxykinase (PEPCK) gene expression by insulin. Dissociation of signaling pathways for insulin and phorbol ester regulation of PEPCK gene expression. 779 43
The xyl genes in Lactobacillus pentosus are induced by xylose and repressed by
glucose
, ribose, and arabinose. Northern blot analysis showed that regulation is mediated at the transcriptional level. Under inducing conditions, two xylA transcripts were detected, a major transcript of 1.5 kb and a minor transcript of 3 kb. The 3 kb transcript also comprises sequences from xylB, suggesting that xylA and xylB are transcribed together. A 1.2 kb xylR transcript was found under inducing and non-inducing conditions. In the presence of xylose, a second xylR transcript (> 7 kb) was detected, which includes sequences from two upstream genes, xylQ and xylP. The transcription start sites for xylA and xylR were mapped by primer extension and S1 nuclease experiments at 42 and 83 nucleotides, respectively upstream of the translation start sites. Induction by xylose of the
chloramphenicol acetyltransferase
(
CAT
) gene under control of the xylA promoter, on a multicopy plasmid, was 60 to 80-fold, but only 3 to 10-fold in the presence of
glucose
and xylose. Expression of
CAT
under control of the xylR promoter was constitutive at a level tenfold less than that observed under control of the xylA promoter. Sequence analysis suggests the presence of two operator-like elements, one overlapping with the promoter -35 region of xylA and controlling the expression of xylA by binding factors involved in catabolite repression, and a second operator downstream of the promoter -10 region of xylA, which may bind the product of xylR, the repressor.(ABSTRACT TRUNCATED AT 250 WORDS)
...
PMID:Promoter analysis and transcriptional regulation of Lactobacillus pentosus genes involved in xylose catabolism. 784 54
Previously, we reported that mesangial cells increased fibronectin, laminin and type IV collagen synthesis when cultured in the presence of high
glucose
(30 mM). Although mRNA levels for all three extracellular matrix (ECM) proteins were also increased in high
glucose
conditions, the mechanism for this increase was not known. In order to determine whether increased transcription was involved in the observed increase in fibronectin mRNA levels mesangial cells were transfected with a construct containing the 5'-flanking region of the fibronectin (FN) gene [position +69 to -510 base pairs (bp)] fused to the coding region of the
chloramphenicol acetyltransferase
(
CAT
) gene [FN-
CAT
(-510)]. Cells were transiently and stably transfected with this construct. Under serum-free conditions, high
glucose
increased
CAT
activity only in the presence of TGF beta 1 (referred to as TGF beta). The experiments were performed without serum because FN-
CAT
(-510) contains a serum responsive element. The increase in
CAT
was approximately twofold in transiently transfected cells and threefold in stably transfected cells. TGF beta alone increased
CAT
activity approximately 30%. Stimulation of fibronectin gene expression appeared to occur at the level of a cAMP response element (CRE) located -170 bp of the FN gene because cells transfected with a construct containing an oligonucleotide encoding for this CRE fused to a minimal fibronectin promoter (-56 bp) and a
CAT
reporter gene [CRE (-170) FN-
CAT
] displayed similar increments of
CAT
activity after treatment with high
glucose
and TGF beta. Gel shift mobility assays with a CRE oligonucleotide revealed multiple complexes with mesangial cell nuclear proteins.(ABSTRACT TRUNCATED AT 250 WORDS)
...
PMID:High glucose and TGF beta 1 stimulate fibronectin gene expression through a cAMP response element. 786 96
In pancreatic beta-cells, the high Km glucose transporter GLUT2 catalyzes the first step in
glucose
-induced insulin secretion by
glucose
uptake. Expression of the transporter has been reported to be modulated by
glucose
either at the protein or mRNA levels. In this study we used the differentiated insulinoma cell line INS-1 which expresses high levels of GLUT2 and show that the expression of GLUT2 is regulated by glucose at the transcriptional level. By run-on transcription assays we showed that
glucose
induced GLUT2 gene transcription 3-4-fold in INS-1 cells which was paralleled by a 1.7-2.3-fold increase in cytoplasmic GLUT2 mRNA levels. To determine whether
glucose
regulatory sequences were present in the promoter region of GLUT2, we cloned and characterized a 1.4-kilobase region of mouse genomic DNA located 5' of the translation initiation site. By RNase protection assays and primer extension, we determined that multiple transcription initiation sites were present at positions -55, -64, and -115 from the first coding ATG and which were identified in liver, intestine, kidney, and beta-cells mRNAs. Plasmids were constructed with the mouse promoter region linked to the reporter gene
chloramphenicol acetyltransferase
(
CAT
), and transiently and stably transfected in the INS-1 cells.
Glucose
induced a concentration-dependent increase in
CAT
activity which reached a maximum of 3.6-fold at 20 mM
glucose
. Similar
CAT
constructs made of the human GLUT2 promoter region and the
CAT
gene displayed the same
glucose
-dependent increase in transcriptional activity when transfected into INS-1 cells. Comparison of the mouse and human promoter regions revealed sequence identity restricted to a few stretches of sequences which suggests that the
glucose
responsive element(s) may be conserved in these common sequences.
...
PMID:Characterization of the murine high Km glucose transporter GLUT2 gene and its transcriptional regulation by glucose in a differentiated insulin-secreting cell line. 792 31
Streptococcus mutans possesses several extracellular sucrose-metabolizing enzymes which have been implicated as important virulence factors in dental caries. This study was initiated to investigate the genetic regulation of one of these enzymes, the extracellular fructosyltransferase (Ftf). Fusions were constructed with the region upstream of the S. mutans GS5 Ftf gene (ftf) and a promoterless
chloramphenicol acetyltransferase
(
CAT
) gene. The fusions were integrated at a remote site in the chromosome, and transcriptional activity in response to the addition of various carbohydrates to the growth medium was measured. A significant increase in
CAT
activity was observed when
glucose
-grown cells were shifted to sucrose-containing medium. Sucrose-induced expression was repressed immediately upon addition of phosphoenolpyruvate phosphotransferase system sugars to the growth media. Deletion analysis of the ftf upstream region revealed that an inverted repeat structure was involved in the control of ftf expression in response to carbohydrate. However, the control of the level of ftf transcription appeared to involve a region distinct from that mediating carbohydrate regulation.
CAT
gene fusions also were constructed with the ftf upstream region from S. mutans V403, a fructan-hyperproducing strain which synthesizes increased levels of Ftf. Sequence analysis of the upstream ftf region in this strain revealed several nucleotide sequence changes which were associated with high-level ftf expression. Comparison of the GS5 and V403 ftf expression patterns suggested the presence of a trans-acting factor(s) involved in modulation of ftf expression in response to carbohydrate. This factor(s) was either absent or altered in V403, resulting in the inability of this organism to respond to the presence of carbohydrate. The sequences of the ftf regions from three additional fructan-hyperproducing strains were determined and compared with that of V403. Only one strain displayed nucleotide changes similar to those of V403. Two additional strains did not have these changes, suggesting that several mechanisms for up-regulation of ftf expression exist.
...
PMID:Genetic regulation of fructosyltransferase in Streptococcus mutans. 813 31
The cutinase gene from Fusarium solani f. sp. pisi (Nectria haematococca) is induced upon contact with the plant cuticular polymer, cutin, by the unique hydroxy fatty acid monomers released by cutinase carried by virulent strains of the fungus, and this gene is also catabolite-repressed by
glucose
. Functional elements of the cutinase promoter were studied in vivo by transforming F. solani pisi with fusions of 5'-flanking regions of the cutinase gene and the gene encoding
chloramphenicol acetyltransferase
(cat). DNA-binding proteins from F. solani pisi were analyzed in vitro by gel shift experiments, methylation interference analysis, and UV-cross-linking experiments. Thus, we identified four promotor elements involved in cutinase gene regulation: a silencer, positive-acting G-rich element, an element that binds a basal transcription factor, and a palindrome necessary for induction by cutin monomer. A silencer between -287 and -249 keeps basal gene expression low but also influences the inducibility of the gene. To restore high levels of induction, a G-rich positive-acting element with sequence similarities to other fungal elements acts as an antagonist to the silencer. Basal transcription is mediated by the first 141 base pairs of the cutinase promoter. The binding site of transcription factor CTF2 was identified between the TATA box and the transcription initiation sites. Gene induction by cutin monomers is regulated by CTF1, most probably a dimeric DNA-binding protein of 49 kDa with a palindromic recognition site at -170.
...
PMID:Identification of regulatory elements in the cutinase promoter from Fusarium solani f. sp. pisi (Nectria haematococca). 813 57
The L-type pyruvate kinase (L-PK) is a key enzyme of the glycolytic pathway mainly expressed in the liver. Rat liver contains a regulatory protein that inhibits glucokinase (GK) activity. The effect of this protein is greatly reinforced by the fructose 6-phosphate and antagonized by the fructose 1-phosphate (Van Schaftingen, E. (1989) Eur. J. Biochem. 179, 179-184). In hepatocytes, fructose in low concentrations is phosphorylated into fructose 1-phosphate, and therefore is able to active GK in the absence of insulin via the regulatory protein in the liver. In primary culture of rat hepatocytes, 0.2 mM fructose in the presence of 20 or 40 mM
glucose
stimulated the activity of the L-PK gene promoter fused with the
chloramphenicol acetyltransferase
reporter gene, regardless of the addition of insulin, through the
glucose
/insulin response element. A constitutive GK expression vector co-transfected with the L-PK/
chloramphenicol acetyltransferase
construct is also able to confer an insulin-independent
glucose
responsiveness in hepatocytes. Thus, the insulin effect on
glucose
-dependent activation of the L-PK promoter is, under these experimental conditions, to permit
glucose
phosphorylation through the stimulation of the GK synthesis. In the presence of
glucose
, the L-PK promoter can also be activated by a post-translational GK activation, mediated by a low concentration of fructose acting via the regulatory protein of glucokinase.
...
PMID:Respective roles of glucose, fructose, and insulin in the regulation of the liver-specific pyruvate kinase gene promoter. 814
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