Gene/Protein
Disease
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Drug
Enzyme
Compound
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Target Concepts:
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Query: EC:2.7.7.6 (
RNA polymerase
)
34,946
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Six mutations, impairing DNA polymerase of E. coli in combination with the wild type gene for rho factor or ts-mutation rho 15 have been studied in relation to the expression of seven operons having different types of regulation. The expression of genes for glucose-6-phosphate dehydrogenase and 6-phosphogluconate dehydrogenase is shown to be constitutive and resistant to mutationally altered
RNA polymerase
and rho factor. The expression of genes for
adenine phosphoribosyltransferase
and of deo operon is regulated by rho dependent attenuators with attenuation being lifted incomplete medium. Mutation rho 15 decreases the level of enzymes of thr and lac operons independent of mRNA levels of these operons. Mutation rho 15 effect on posttranscriptional level is modified by mutations damaging
RNA polymerase
. The data obtained suppose
RNA polymerase
to affect all stages of realization of genetic information, beginning with promoter recognition and RNA synthesis and including the protein synthesis on mRNA.
...
PMID:[Effect of mutation changes in RNA-polymerase and transcription termination factor rho on expression of various operons in E. coli]. 302 82
The effect of DNA methylation on the transcriptional activity of the hamster
adenine phosphoribosyltransferase
(
aprt
) and the herpes thymidine kinase (tk) genes has been investigated. By using M13 constructs containing these gene sequences, specific segments of each gene were methylated in vitro by restriction fragment primer-directed second-strand synthesis using the substrate 2'-deoxy-5-methyl-cytidine triphosphate (dmCTP). These hybrid-methylated molecules were inserted into mouse Ltk- cells by DNA-mediated cotransfer. In all cases, the integrated sequences retained the in vitro-directed methylation pattern. The
aprt
gene was inhibited by CpG methylation in the 5' region but was unaffected by methylation at the 3' end or in adjacent M13 sequences. In contrast to this, DNA methylation in both the 5' promoter region and the 3' structural region of the tk gene had a strong inhibitory effect. This suggests that this modification may affect transcription by mechanisms that do not involve the direct alteration of recognition sequences for
RNA polymerase
.
...
PMID:Effect of regional DNA methylation on gene expression. 385 99
We have recently detected de-novo transcripts of the predominantly muscle-specific myotonin protein kinase gene in human preimplantation embryos from the 1-cell to the 4-cell stages. Others have shown de-novo transcripts of the Y-linked genes, ZFY and SRY, in the 1-cell zygote. In order to assess the significance of early transcription of these predominantly tissue-specific genes in preimplantation development, we have analysed individual human oocytes and preimplantation embryos for the presence of transcripts of two further tissue-specific genes, alpha-globin and beta-globin, and two house-keeping genes, HPRT and
APRT
. Reverse
transcriptase
polymerase chain reaction assays were developed to the required single cell sensitivity, using human red blood cells and fibroblasts, prior to their application to human oocytes and embryos. As expected, transcripts of the house-keeping genes, HPRT and
APRT
, were detected at all stages of preimplantation development. Transcripts of 'tissue-specific' alpha-globin were readily detected in preimplantation embryos from the 1-cell stage. However, transcripts of beta-globin were detected only rarely (in only one of the 11 embryos analysed). This difference may be due to the fact that alpha-globin contains a CpG island. A survey of the data on gene expression in early human development suggests that CpG-island-containing genes may be expressed in preimplantation embryos. Expression of these genes in gametes and early embryos may be involved in the survival of CpG islands in evolution.
...
PMID:Transcription of tissue-specific genes in human preimplantation embryos. 940 90
6-Fluoro-3-hydroxy-2-pyrazinecarboxamide (T-705) is a novel antiviral compound with broad activity against influenza virus and diverse RNA viruses. Its active metabolite, T-705-ribose-5'-triphosphate (T-705-RTP), is recognized by influenza virus
RNA polymerase
as a substrate competing with GTP, giving inhibition of viral RNA synthesis and lethal virus mutagenesis. Which enzymes perform the activation of T-705 is unknown. We here demonstrate that human hypoxanthine guanine phosphoribosyltransferase (HGPRT) converts T-705 into its ribose-5'-monophosphate (RMP) prior to formation of T-705-RTP. The anti-influenza virus activity of T-705 and T-1105 (3-hydroxy-2-pyrazinecarboxamide; the analog lacking the 6-fluoro atom) was lost in HGPRT-deficient Madin-Darby canine kidney cells. This HGPRT dependency was confirmed in human embryonic kidney 293T cells undergoing HGPRT-specific gene knockdown followed by influenza virus ribonucleoprotein reconstitution. Knockdown for
adenine phosphoribosyltransferase
(
APRT
) or nicotinamide phosphoribosyltransferase did not change the antiviral activity of T-705 and T-1105. Enzymatic assays showed that T-705 and T-1105 are poor substrates for human HGPRT having Km(app) values of 6.4 and 4.1 mM, respectively. Formation of the RMP metabolites by
APRT
was negligible, and so was the formation of the ribosylated metabolites by human purine nucleoside phosphorylase. Phosphoribosylation and antiviral activity of the 2-pyrazinecarboxamide derivatives was shown to require the presence of the 3-hydroxyl but not the 6-fluoro substituent. The crystal structure of T-705-RMP in complex with human HGPRT showed how this compound binds in the active site. Since conversion of T-705 by HGPRT appears to be inefficient, T-705-RMP prodrugs may be designed to increase the antiviral potency of this new antiviral agent.
...
PMID:Role of human hypoxanthine guanine phosphoribosyltransferase in activation of the antiviral agent T-705 (favipiravir). 2390 13
Benzoic acid, a partial uncoupler of the proton motive force (PMF), selects for sensitivity to chloramphenicol and tetracycline during the experimental evolution of
Escherichia coli
K-12. Transcriptomes of
E. coli
isolates evolved with benzoate showed the reversal of benzoate-dependent regulation, including the downregulation of multidrug efflux pump genes, the gene for the Gad acid resistance regulon, the nitrate reductase genes
narHJ
, and the gene for the acid-consuming hydrogenase Hyd-3. However, the benzoate-evolved strains had increased expression of OmpF and other large-hole porins that admit fermentable substrates and antibiotics. Candidate genes identified from benzoate-evolved strains were tested for their roles in benzoate tolerance and in chloramphenicol sensitivity. Benzoate or salicylate tolerance was increased by deletion of the Gad activator
ariR
or of the acid fitness island from
slp
to the end of the
gadX
gene encoding Gad regulators and the multidrug pump genes
mdtEF
Benzoate tolerance was also increased by deletion of multidrug component gene
emrA
, RpoS posttranscriptional regulator gene
cspC
, adenosine deaminase gene
add
, hydrogenase gene
hyc
(Hyd-3), and the RNA chaperone/DNA-binding regulator gene
hfq
Chloramphenicol resistance was decreased by mutations in genes for global regulators, such as
RNA polymerase
alpha subunit gene
rpoA
, the Mar activator gene
rob
, and
hfq
Deletion of lipopolysaccharide biosynthetic kinase gene
rfaY
decreased the rate of growth in chloramphenicol. Isolates from experimental evolution with benzoate had many mutations affecting aromatic biosynthesis and catabolism, such as
aroF
(encoding tyrosine biosynthesis) and
apt
(encoding
adenine phosphoribosyltransferase
). Overall, benzoate or salicylate exposure selects for the loss of multidrug efflux pumps and of hydrogenases that generate a futile cycle of PMF and upregulates porins that admit fermentable nutrients and antibiotics.
IMPORTANCE
Benzoic acid is a common food preservative, and salicylic acid (2-hydroxybenzoic acid) is the active form of aspirin. At high concentrations, benzoic acid conducts a proton across the membrane, depleting the proton motive force. In the absence of antibiotics, benzoate exposure selects against proton-driven multidrug efflux pumps and upregulates porins that admit fermentable substrates but that also allow the entry of antibiotics. Thus, evolution with benzoate and related molecules, such as salicylates, requires a trade-off for antibiotic sensitivity, a trade-off that could help define a stable gut microbiome. Benzoate and salicylate are naturally occurring plant signal molecules that may modulate the microbiomes of plants and animal digestive tracts so as to favor fermenters and exclude drug-resistant pathogens.
...
PMID:Inverted Regulation of Multidrug Efflux Pumps, Acid Resistance, and Porins in Benzoate-Evolved Escherichia coli K-12. 3117 92
Leishmania parasites include important pathogens and model organisms and are even used for the production of recombinant proteins. However, functional genomics and the characterization of essential genes are often limited in Leishmania because of low-throughput technologies for gene disruption or tagging and the absence of components for RNA interference. Here, we tested the T7
RNA polymerase
-dependent CRISPR-Cas9 system by Beneke et al. and the glmS ribozyme-based knock-down system in the model parasite Leishmania tarentolae. We successfully deleted two reference genes encoding the flagellar motility factor Pf16 and the salvage-pathway enzyme
adenine phosphoribosyltransferase
, resulting in immotile and drug-resistant parasites, respectively. In contrast, we were unable to disrupt the gene encoding the mitochondrial flavoprotein Erv. Cultivation of L. tarentolae in standard BHI medium resulted in a constitutive down-regulation of an episomal mCherry-glmS reporter by 40 to 60%. For inducible knock-downs, we evaluated the growth of L. tarentolae in alternative media and identified supplemented MEM, IMDM and McCoy's 5A medium as candidates. Cultivation in supplemented MEM allowed an inducible, glucosamine concentration-dependent down-regulation of the episomal mCherry-glmS reporter by more than 70%. However, chromosomal glmS-tagging of the genes encoding Pf16,
adenine phosphoribosyltransferase
or Erv did not reveal a knock-down phenotype. Our data demonstrate the suitability of the CRISPR-Cas9 system for the disruption and tagging of genes in L. tarentolae as well as the limitations of the glmS system, which was restricted to moderate efficiencies for episomal knock-downs and caused no detectable phenotype for chromosomal knock-downs.
...
PMID:Testing the CRISPR-Cas9 and glmS ribozyme systems in Leishmania tarentolae. 3316 72
