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)

CooA, the heme-containing carbon monoxide (CO) sensor from the bacterium Rhodospirillum rubrum, is a transcriptional factor that activates expression of certain genes in response to CO. As with other heme proteins, CooA is unable to bind CO when the Fe heme is oxidized, consistent with the fact that some of the regulated gene products are oxygen-labile. Upon reduction, there is an unusual switch of protein ligands to the six-coordinate heme and the reduced heme is able to bind CO. CO binding stabilizes a conformation of the dimeric protein that allows sequence-specific DNA binding, and transcription is activated through contacts between CooA and RNA polymerase. CooA is therefore a novel redox sensor as well as a specific CO sensor. CooA is a homolog of catabolite responsive protein (CRP), whose transcriptionally active conformation has been known for some time. The recent solution of the crystal structure of the CO-free (transcriptionally inactive) form of CooA has allowed insights into the mechanism by which both proteins respond to their specific small-molecule effectors.
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PMID:CooA: a heme-containing regulatory protein that serves as a specific sensor of both carbon monoxide and redox state. 1152 85

Flock house virus (FHV) is the best studied member of the Nodaviridae, a family of small, nonenveloped, isometric RNA viruses of insects and fish. Nodavirus genomes comprise two single-stranded positive-sense RNA segments (RNAs 1 and 2) that encode the viral RNA-dependent RNA polymerase (RdRp) and capsid protein precursor, respectively. The RdRp replicates both genomic RNAs and also generates a subgenomic RNA (RNA3) that is not encapsidated. Although genomic RNAs replicate through negative-sense intermediates, little is known about these RNAs or the details of the replication mechanism. Negative-sense RNAs 1, 2, and 3, as well as putative dimers of RNAs 2 and 3, have been detected in previous studies. In this study we detected dimers of RNAs 1, 2, and 3 by Northern blot analyses of RNA samples from FHV-infected Drosophila cells, as well as from mammalian and yeast cells supporting FHV RNA replication. Characterization of these RNA species by RT-PCR and sequence determination showed that they contained head-to-tail junctions of FHV RNAs. RNAs containing the complete sequence of RNA2 joined to RNA3 were also detected during replication. To examine the template properties of these dimeric RNAs, we made corresponding cDNAs and transcribed them from a T7 promoter in mammalian cells constitutively expressing T7 RNA polymerase, together with RNA1 to provide the RdRp. Although heterologous terminal extensions inhibit FHV RNA replication, monomeric RNA2 was resolved and replicated from complete or partial homodimer templates and from an RNA2-RNA3 heterodimer.
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PMID:Characterization and template properties of RNA dimers generated during flock house virus RNA replication. 1168 50

Hepatitis delta virus (HDV) contains a viroid-like circular RNA that is presumed to replicate via a rolling circle replication mechanism mediated by cellular RNA polymerases. However, the exact mechanism of rolling circle replication for HDV RNA and viroids is not clear. Using our recently described cDNA-free transfection system (L. E. Modahl and M. M. Lai, J. Virol. 72:5449-5456, 1998), we have succeeded in detecting HDV RNA replication by metabolic labeling with [32P]orthophosphate in vivo and obtained direct evidence that HDV RNA replication generates high-molecular-weight multimeric species of HDV RNA, which are processed into monomeric and dimeric forms. Thus, these multimeric RNAs are the true intermediates of HDV RNA replication. We also found that HDV RNA synthesis is highly temperature sensitive, occurring most efficiently at 37 to 40 degrees C and becoming virtually undetectable at temperatures below 30 degrees C. Moreover, genomic HDV RNA synthesis was found to occur at a rate roughly 30-fold higher than that of antigenomic RNA synthesis. Finally, in lysolecithin-permeabilized cells, the synthesis of full-length antigenomic HDV RNA was completely resistant to high concentrations (100 microg/ml) of alpha-amanitin. In contrast, synthesis of genomic HDV RNA was totally inhibited by alpha-amanitin at concentrations as low as 2.5 microg/ml. Thus, these results suggest that genomic and antigenomic HDV RNA syntheses are performed by two different host cell enzymes. This observation, combined with our previous finding that hepatitis delta antigen mRNA synthesis is likely performed by RNA polymerase II, suggests that the different HDV RNA species are synthesized by different cellular transcriptional machineries.
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PMID:Rolling circle replication of hepatitis delta virus RNA is carried out by two different cellular RNA polymerases. 1190 31

TyrR from Escherichia coli regulates the expression of genes for aromatic amino acid uptake and biosynthesis. Its central ATP-hydrolyzing domain is similar to conserved domains of bacterial regulatory proteins that interact with RNA polymerase holoenzyme associated with the alternative sigma factor, sigma(54). It is also related to the common module of the AAA+ superfamily of proteins that is involved in a wide range of cellular activities. We expressed and purified two TyrR central domain polypeptides. The fragment comprising residues 188-467, called TyrR-(188-467), was soluble and stable, in contrast to that corresponding to the conserved core from residues 193 to 433. TyrR-(188-467) bound ATP and rhodamine-ATP with association constants 2- to 5-fold lower than TyrR and hydrolyzed ATP at five times the rate of TyrR. In contrast to TyrR, which is predominantly dimeric at protein concentrations less than 10 microm in the absence of ligands, or in the presence of ATP or tyrosine alone, TyrR-(188-467) is a monomer, even at high protein concentrations. Tyrosine in the presence of ATP or ATPgammaS promotes the oligomerization of TyrR-(188-467) to a hexamer. Tyrosine-dependent repression of gene transcription by TyrR therefore depends on ligand binding and hexamerization determinants located in the central domain polypeptide TyrR-(188-467).
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PMID:The central domain of Escherichia coli TyrR is responsible for hexamerization associated with tyrosine-mediated repression of gene expression. 1192 93

A Crystallogral structure is described for the Mg2+-BeF3--bound receiver domain of Sinorhizobium meliloti DctD bearing amino acid substitution E121K. Differences between the apo- and ligand-bound active sites are similar to those reported for other receiver domains. However, the off and on states of the DctD receiver domain are characterized by dramatically different dimeric structures, which supports the following hypothesis of signal transduction. In the off state, the receiver domain and coiled-coil linker form a dimer that inhibits oligomerization of the AAA+ ATPase domain. In this conformation, the receiver domain cannot be phosphorylated or bind Mg2+ and BeF3-. Instead, these modifications stabilize an alternative dimeric conformation that repositions the subunits by approximately 20 A, thus replacing the a4-b5-a5 interface with an a4-b5 interface. Reoriented receiver domains permit the ATPase domain to oligomerize and stimulate open complex formation by the s54 form of RNA polymerase. NtrC, which shares 38% sequence identity with DctD, works differently. Its activated receiver domain must facilitate oligomerization of its ATPase domain. Significant differences exist in the signaling surfaces of the DctD and NtrC receiver domains that may help explain how triggering the common two-component switch can variously regulate assembly of a AAA+ ATPase domain.
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PMID:Two-component signaling in the AAA + ATPase DctD: binding Mg2+ and BeF3- selects between alternate dimeric states of the receiver domain. 1236 35

The effect that different regions of the Alu consensus sequence have upon the stability and accumulation of its RNA polymerase III (Pol III) directed transcripts was determined by transiently overexpressing Alu deletion and chimeric constructs in human 293 cells. Transcripts of the left Alu monomer are more stable than those of the full-length consensus sequence and any additional 3' sequence beyond the left monomer destabilizes the resulting transcript. Neither the middle A-rich region nor the 3' A-rich tail specifically affect the stability of Alu transcripts. However, the right monomer is inherently less stable than corresponding left monomer transcripts. Alu's dimeric structure and sequences peculiar to the right monomer each limit the stability and steady state accumulation of its transcripts. A host requirement to rapidly metabolize Alu RNA or restrict its abundance may have selected for these two features of the Alu consensus sequence.
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PMID:Alu's dimeric consensus sequence destabilizes its transcripts. 1469 84

To determine whether the spacer region between the -35 and -10 elements plays any sequence-specific role, we randomized the GC-rich sequence ((-20)CCGGCTCG(-13)) within the spacer region of the cAMP-dependent lac promoter and selected an activator-independent mutant, which showed extraordinarily high intrinsic activity. The hyperactive promoter is obtained by incorporation of a specific 10-bp-long AT-rich DNA sequence within the spacer, referred to as the -15 sequence, which must be juxtaposed to the upstream end of the -10 sequence for the hyperactivity. The transcription enhancement functions only in the presence of a -35 element. The spacer sequence enhanced both RNA polymerase binding and open complex formation. Isolated in the lac promoter, it also enhanced transcription when placed at two other unrelated promoters. Sequence analysis shows a low GC content and an abundance of stereochemically flexible TG:CA and TA:TA dimeric steps in the -18/-9 region and a strong correlation between the presence of flexible dimeric steps in this region and the intrinsic strength of the promoter.
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PMID:A mutant spacer sequence between -35 and -10 elements makes the Plac promoter hyperactive and cAMP receptor protein-independent. 1511 87

The Des pathway of Bacillus subtilis regulates the synthesis of the cold-shock induced membrane-bound enzyme Delta5-fatty acid desaturase (Delta5-Des). A central component of the Des pathway is the response regulator, DesR, which is activated by a membrane-associated kinase, DesK, in response to a decrease in membrane lipid fluidity. Despite genetic and biochemical studies, specific details of the interaction between DesR and the DNA remain unknown. In this study we show that only the phosphorylated form of protein DesR is able to bind to a regulatory region immediately upstream of the promoter of the Delta5-Des gene (Pdes). Phosphorylation of the regulatory domain of dimeric DesR promotes, in a cooperative fashion, the hierarchical occupation of two adjacent, non-identical, DesR-P DNA binding sites, so that there is a shift in the equilibrium toward the tetrameric active form of the response regulator. Subsequently, this phosphorylation signal propagation leads to the activation of the des gene through recruitment of RNA polymerase to Pdes. This is the first dissected example of a transcription factor functioning as a phosphorylation-activated switch for a cold-shock gene, allowing the cell to optimize the fluidity of membrane phospholipids.
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PMID:Bacillus subtilis DesR functions as a phosphorylation-activated switch to control membrane lipid fluidity. 1524 25

Using structural comparisons, we identified a novel domain with a simple fold in the bacterial cell division ATPase FtsA, the archaeo-eukaryotic RNA polymerase subunit Rpb7p, the GyrI superfamily, and the uncharacterized MTH1598/Tm1083-like proteins. The fold contains a core of 3 strands, forming a curved sheet, and a single helix in a strand-helix-strand-strand (SHS2) configuration. The SHS2 domain may exist either in single or duplicate copies within the same polypeptide. The single-copy versions of the domain in FtsA and Rbp7p are most closely related, and appear to mediate protein-protein interactions by means of strand 1, and the loop between strand 2 and strand 3 of the domain. We predict that the interactions between FtsA and its functional partners in bacterial cell division are likely to be similar to the interactions of Rbp7p in the archaeo-eukaryotic RNA polymerase complex. The dimeric versions typified by the GyrI superfamily appear to have been adapted for small-molecule binding. Sequence profiles searches helped us to identify several new versions of the GyrI superfamily, including a family of secreted forms that is found only in animals and the bacterial pathogen Leptospira. Through sequence-structure comparisons, we predict the positions that are likely to be important for ligand specificity in the GyrI superfamily. In the MTH1598/Tm1083-like proteins, a SHS2 domain is inserted into the loop between strand 1 and helix 1 of another SHS2 domain. This has resulted in a structure that has convergent similarities with the Hsp33 and green fluorescent protein folds. The sequence conservation pattern and its phyletic profile suggest that it might function as an enzyme in some conserved aspect of nucleic acid metabolism. Thus, the SHS2 domain is an example of a simple module that has been adapted to perform an entire spectrum of functions ranging from protein-protein interactions to small-molecule recognition and catalysis.
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PMID:The SHS2 module is a common structural theme in functionally diverse protein groups, like Rpb7p, FtsA, GyrI, and MTH1598/TM1083 superfamilies. 1528 Nov 31

Examination of the tRNA binding sites in the ribosome suggests that it might once have been able to catalyse the polymerisation of RNA. Based on a viral RNA-dependant RNA polymerase, the geometry of a potential active site for this ribopolymerase was constructed. From examination of the active site geometry, along with other arguments, it is suggested that the ribopolymerase synthesised a parallel complementary strand. When combined into a dimeric polymerase, this strategy minimises the exposure of single-stranded RNA and prevents self-hybridisation: both previously difficult problems for the RNA world hypothesis.
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PMID:A molecular model for transcription in the RNA world based on the ribosome large subunit. 1555 73


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