Gene/Protein Disease Symptom Drug Enzyme Compound
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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)

Eleven small, acid-soluble proteins (SASP) which are present in spores but not in growing cells of Bacillus subtilis were identified by sequence analysis of proteins separated by acrylamide gel electrophoresis of acid extracts from spores which lack the three major SASP (alpha, beta, and gamma). Six of these proteins are encoded by open reading frames identified previously or by analysis of the complete sequence of the B. subtilis genome, including two minor alpha/beta-type SASP (SspC and SspD) and a putative spore coat protein (CotK). Five proteins are encoded by short open reading frames that were not identified as coding regions in the analysis of the complete B. subtilis genomic sequence. Studies of the regulation of two of the latter genes, termed sspG and sspJ, showed that both are expressed only in sporulation. The sspG gene is transcribed in the mother cell compartment by RNA polymerase with the mother cell-specific sigma factor for RNA polymerase, sigmaK, and is cotranscribed with a downstream gene, yurS; sspG transcription also requires the DNA binding protein GerE. In contrast, sspJ is transcribed in the forespore compartment by RNA polymerase with the forespore-specific sigmaG and appears to give a monocistronic transcript. A mutation eliminating SspG had no effect on sporulation or spore properties, while loss of SspJ caused a slight decrease in the rate of spore outgrowth in an otherwise wild-type background.
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PMID:New small, acid-soluble proteins unique to spores of Bacillus subtilis: identification of the coding genes and regulation and function of two of these genes. 985 18

MerR, the metalloregulator of the mercury resistance (mer) operon, binds the operator (merO)between -10 and -35 of the merTPCAD promoter (PT) and sequesters RNA polymerase (RNAP) in a closed complex. MerR represses PT until Hg(II) induces it to underwind merO DNA and thus facilitate open complex formation. We used cross-linking to determine if direct contacts between MerR and RNAP also occur during this process. MerR cross-linked to the alpha, beta, and sigma70 subunits of RNAP alone, indicating stable contacts which were further stabilized upon forming the preinitiation complex at PT. Hg(II) did not eliminate any of the MerR-RNAP cross-links but did increase the relative abundance of a MerR dimer conformer. Interference by MerR with self-cross-links among RNAP subunits and the formation of an electrophoretically stable association between MerR and RNAP also indicated MerR-RNAP interactions. This is the first evidence for stable physical contacts between MerR and RNAP and for a Hg(II)-induced allosteric change in MerR in the transcription-competent complex.
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PMID:MerR cross-links to the alpha, beta, and sigma 70 subunits of RNA polymerase in the preinitiation complex at the merTPCAD promoter. 1007 80

Protein kinase C (PKC), a key component of the signaling pathways leading to proliferation and differentiation, consists of a family closely related serine/threonine protein kinases. The mRNA expression of these PKC isoforms has been characterized during hematopoietic differentiation. Using the reverse-transcriptase polymerase chain reaction technique, we have analyzed the levels of isoform transcripts in bone marrow CD34(+) hematopoietic progenitors and their progeny differentiated along erythroid, megakaryocyte, or granulocyte/monocyte lineages, upon exposure to growth factors. In contrast with isoforms alpha, beta(I), beta(II), delta, and epsilon, ubiquitously expressed, isoforms theta, eta/L, zeta, and iota/lambda exhibited a lineage-restricted expression. These qualitative changes, which allow to distinguish the erythroid and megakaryocyte phenotypes from the granulocyte/monocyte phenotype, include zeta exclusively upregulated in granulocytes/monocytes and theta, eta/L, and iota/lambda exclusively expressed in megakaryocytes and erythroblasts. In contrast, erythroblasts and megakaryocytes, which supposedly share a common bipotential progenitor, displayed only quantitative changes. These results evidence the selective expression of PKC isoforms at transcriptional and/or posttranscriptional levels in hematopoietic progenitors induced to differentiate, which may suggest a differential contribution of individual isoforms to cellular signaling.
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PMID:Differential expression of protein kinase C isoform transcripts in human hematopoietic progenitors undergoing differentiation. 1051 25

The amino-terminal domain of the alpha subunit (alphaNTD) of Escherichia coli RNA polymerase consisting of 235 amino acid residues functions in the assembly of the alpha, beta, and beta' subunits into the core-enzyme. It has a tendency to form aggregates by itself at higher concentrations. For NMR structural analysis of alphaNTD, the solution conditions, including the use of non-denaturing detergents, were optimized by monitoring the translational diffusion coefficients using the field gradient NMR technique. Under the optimal conditions with taurodeoxycholate and with the aid of deuteration of the sample, alphaNTD gave triple-resonance spectra of good quality, which allowed the assignment of a large part of the backbone resonances. Analysis of the pattern of NOEs observed between the backbone amide and alpha-protons demonstrated that alphaNTD has three alpha-helices and two beta-sheets. Although the secondary structure elements essentially coincide with those in the crystal structure, the larger of the two beta-sheets has two additional beta-strands. The irregular NOE patterns observed for the three positions in the beta-sheets suggest the presence of beta-bulge structures. The positions of the three helices coincide with the conserved sequence regions that are responsible for the subunit assembly.
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PMID:Structural study of the N-terminal domain of the alpha subunit of Escherichia coli RNA polymerase solubilized with non-denaturing detergents. 1092 Feb 71

Laminins are a family of disulfide-linked heterotrimeric proteins consisting of 3 different subunits termed alpha, beta, and gamma chains. Combinations of 11 characterized laminin subunits (alpha 1-alpha 5, beta 1-beta 3, and gamma 1-gamma 3) generate at least 12 laminin isoforms, which can serve different functions. Although expression of laminin in the hematopoietic microenvironment has been known for many years, the nature of the laminin isoforms present in the human bone marrow is poorly characterized. The present study attempts to clarify this issue. Reverse transcriptase-polymerase chain reaction analysis of human bone marrow stromal cells suggested the expression of many laminin isoforms in the marrow. Northern blot and immunoblot analysis, however, showed that laminin-8/9 and laminin-10/11 are the most abundant laminin isoforms synthesized by human bone marrow stromal cells. Other isoforms, if present, certainly play a minor role in the hematopoietic microenvironment. Functionally, laminin-10/11 preparations showed strong adhesive interactions with human CD34(+) cell lines. Antibodies against the beta 1 integrin subunit inhibited these interactions. Other laminin isoforms, especially laminin-1 and laminin-2/4, showed only weak or no adhesive interactions with the hematopoietic cell lines tested, explaining former negative results. In addition to its adhesion-mediating properties, laminin-10/11 preparations also showed a mitogenic activity for human hematopoietic progenitor cells. Taken together, these data suggest that laminin in the bone marrow plays a hitherto unexpected important function in the development of hematopoietic progenitor cells. (Blood. 2000;96:4194-4203)
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PMID:Characterization and functional analysis of laminin isoforms in human bone marrow. 1111 Jun 91

The Escherichia coli RNA polymerase (RNAP) alpha, beta, and beta' core subunits are evolutionarily conserved among bacteria and plastids, and the plastid specificity factors form a functional holoenzyme with the E. coli core. To investigate whether the E. coli core subunits may form a functional hybrid enzyme with the plastid core subunits, we replaced the tobacco plastid RNAP alpha subunit gene (rpoA) with the E. coli alpha subunit gene by targeted gene insertion. The transplastomic tobacco plants look similar to tobacco rpoA deletion mutants in that they are chlorophyll-deficient and nonphotoautotrophic. In addition, they lack transcripts from promoters recognized by the E. coli-like plastid RNA polymerase. These results indicate that evolutionary conservation between the E. coli and plastid RNA polymerase alpha subunits is insufficient to allow substitution of the tobacco alpha subunit with its bacterial counterpart. Interestingly, the cyanobacterial alpha subunits are as different as the E. coli alpha subunits; and therefore it is unlikely that replacement of the tobacco alpha subunit with cyanobacterial alpha subunits would yield a functional enzyme. Replacement of plastid rpoA with the E. coli RNA polymerase alpha subunit gene represents the first engineering of a plastid operon in higher plants.
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PMID:Engineering of the rpl23 gene cluster to replace the plastid RNA polymerase alpha subunit with the Escherichia coli homologue. 1112 81

Using the Genome Walker procedure, which allows PCR amplification of genomic DNA using a single gene-specific primer and direct automated sequencing methodology, we obtained the nucleotide sequence of the RNA polymerase beta subunit (rpoB) from Bartonella henselae and Bartonella quintana. A phylogenetic tree constructed from these data and other rpoB sequences available in GenBank is, in part, consistent with those previously derived from 16S rRNA gene sequences and confirms the position of Bartonella within the alpha subdivision of Proteobacteria. In fact, this analysis showed that rpoB data are similar to 16S rRNA data for the alpha, beta and gamma subdivisions of Proteobacteria. In contrast, concerning other bacteria included in our study, the topologies of phylogenetic trees were different. Based on the bootstrap values derived from rpoB phylogenic analysis, we believe that this molecule should contribute to better understanding the evolutionary process.
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PMID:Determination of the rpoB gene sequences of Bartonella henselae and Bartonella quintana for phylogenic analysis. 1119 8

Leptospiral protein antigens are of interest as potential virulence factors and as candidate serodiagnostic and immunoprotective reagents. We identified leptospiral protein antigens by screening a genomic expression library with serum from a rabbit hyperimmunized with formalin-killed, virulent Leptospira kirschneri serovar grippotyphosa. Genes expressing known outer membrane lipoproteins LipL32 and LipL41, the heat shock protein GroEL, and the alpha, beta, and beta' subunits of RNA polymerase were isolated from the library. In addition, a new leptospiral gene that in Escherichia coli expressed a 45-kDa antigen with an amino-terminal signal peptide followed by the spirochetal lipobox Val(-4)-Phe(-3)-Asn(-2)-Ala(-1) (downward arrow)Cys(+1) was isolated. We designated this putative lipoprotein LipL45. Immunoblot analysis of a panel of Leptospira strains probed with LipL45 antiserum demonstrated that many low-passage strains expressed LipL45. In contrast, LipL45 was not detected in high-passage, culture-attenuated strains, suggesting that LipL45 is a virulence-associated protein. In addition, all leptospiral strains tested, irrespective of culture passage, expressed a 31-kDa antigen that was recognized by LipL45 antiserum. Southern blot and peptide mapping studies indicated that this 31-kDa antigen was derived from the carboxy terminus of LipL45; therefore, it was designated P31(LipL45). Membrane fractionation studies demonstrated that P31(LipL45) is a peripheral membrane protein. Finally, we found that P31(LipL45) levels increased as Leptospira entered the stationary phase, indicating that P31(LipL45) levels were regulated. Hamsters infected with L. kirschneri formed an antibody response to LipL45, indicating that LipL45 was expressed during infection. Furthermore, the immunohistochemistry of kidneys from infected hamsters indicated that LipL45 was expressed by L. kirschneri that colonized the renal tubule. These observations suggest that expression of LipL45 responds to environmental cues, including those encountered during infection of a mammalian host.
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PMID:Novel 45-kilodalton leptospiral protein that is processed to a 31-kilodalton growth-phase-regulated peripheral membrane protein. 1174 98

Systemic pseudohypoaldosteronism type I (PHAI) is an autosomal recessive disorder that arises from loss of function mutations of the alpha, beta, or gamma subunit of Epithelial Na(+) Channel (ENaC). In addition to a severe renal phenotype in the neonatal period, patients with PHAI develop a childhood pulmonary syndrome characterized by cough and frequent respiratory infections. We tested a patient, born to consanguineous parents, who presented with dehydration, metabolic acidosis, hyperkalemia, elevated renin and aldosterone levels at birth, and recurrent respiratory symptoms in his first year. He demonstrated defective epithelial Na(+) transport in multiple organs (raised sweat Cl(-), 120 mM; raised salivary Na(+) and Cl(-), 118 and 111 mM, respectively; and little nasal amiloride-sensitive potential difference). No deleterious mutation was identified in the coding region of the three ENaC subunits. Reverse transcriptase-polymerase chain reaction of nasal epithelial RNA showed reduced betaENaC expression, and inability to amplify promoter elements indicated the possibility of a deletion in the 5' region. Using a probe that corresponded to exon 1A of betaENaC, we confirmed a large deletion (> 1,300 bp). In summary, a homozygous mutation in the promoter region of betaENaC leads to PHAI, the first description of a mutation in the regulatory regions of an ENaC subunit leading to a clinical phenotype.
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PMID:Systemic pseudohypoaldosteronism from deletion of the promoter region of the human Beta epithelial na(+) channel subunit. 1220 93

We found a novel inhibitor specific to eukaryotic DNA polymerase epsilon(pol epsilon) from plant cultured cells, Nicotina tabacum L. The compound (compound 1) was a dipeptide alcohol, L-homoserylaminoethanol. The 50% inhibition of pol epsilon activity by the compound was 43.6 microg/mL, and it had almost no effect on the activities of the other eukaryotic DNA polymerases such as alpha, beta, gamma and delta, prokaryotic DNA polymerases, nor DNA metabolic enzymes such as human telomerase, human immunodeficiency virus type 1 reverse transcriptase, T7 RNA polymerase, human DNA topoisomerase I and II, T4 polynucleotide kinase and bovine deoxyribonuclease I. Kinetic studies showed that inhibition of pol epsilon by the compound was non-competitive with respect to both template-primer DNA and nucleotide substrate. We succeeded in chemically synthesizing the stereoisomers, L-homoserylaminoethanol and D-homoserylaminoethanol, and found both were effective to the same extent. The IC(50) values of L- and D-homoserylaminoethanols for pol epsilon were 42.0 and 41.5 microg/mL, respectively. This represents the second discovery of a pol epsilon-specific inhibitor, and the first report on a water-soluble peptide-like compound as the inhibitor, which is required in biochemical studies of pol epsilon.
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PMID:L-Homoserylaminoethanol, a novel dipeptide alcohol inhibitor of eukaryotic DNA polymerase from a plant cultured cells, Nicotina tabacum L. 1498 Jun 8


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