Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound

---

Query: EC:2.7.7.6 (RNA polymerase)
34,946 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

A highly selective affinity labeling of T7 RNA polymerase with the o-formylphenyl ester of GMP and [alpha-32P]UTP was carried out. The site of the labeling was located using limited cleavages with hydroxylamine, bromine, N-chlorosuccinimide and cyanogene bromide and was identified as the Lys631 residue. Site-directed mutagenesis using synthetic oligonucleotides was used to substitute Lys631 by a Gly, Leu or Arg residue. Kinetic studies of the purified mutant enzymes showed alterations of their polymerizing activity. For the Lys----Gly mutant enzyme, anomalous template binding was observed.
...
PMID:Lys631 residue in the active site of the bacteriophage T7 RNA polymerase. Affinity labeling and site-directed mutagenesis. 184 71

To identify functionally important regions of the human interferon (IFN)-alpha molecule, mutagenesis in vitro of human IFN-a genes was used to create analogs with deletions or specific amino acid replacements. These analogs were expressed in vitro using SP6 RNA polymerase and a rabbit reticulocyte lysate protein synthesis system. Deletion of 7 highly conserved hydrophilic amino acids from the C-terminus of human IFN-alpha 4 reduced, but did not abolish, antiviral activity on human cells. However, analogs with deletions of 15 or 25 amino acids from the C-terminus, or 28 amino acids from the N-terminus, had no measurable antiviral activity. The antiviral activity of human IFN-alpha 4 was increased by substitution of cysteine for serine at position 86, and lysine for arginine at position 121. However, other amino acid substitutions at positions 121, 122 or 123 reduced antiviral activity. The size of the side chain of the amino acid residue at position 130 was shown to be important. Replacement of the absolutely conserved leucine residue at position 131 with glutamine had little effect on antiviral activity. However, the introduction of a proline residue at this position abolished antiviral activity, probably due to the formation of a beta turn in the polypeptide chain. The antiviral activity of human IFN-alpha 4 on murine cells was increased by substitutions at positions 86, 121 and 133. This study illustrates the utility of the in vitro mutagenesis and rabbit reticulocyte lysate systems for the investigation of structure-function relationships, and extends our knowledge of the biologically active regions and species specificity of the human IFN-alpha molecule.
...
PMID:Structure-function studies of human interferons-alpha: enhanced activity on human and murine cells. 190 22

Upon infection of animal cells by Sindbis virus, four nonstructural (ns) proteins, termed nsP1-4 in order from 5' to 3' in the genome, are produced by posttranslational cleavage of a polyprotein. nsP4 is believed to function as the viral RNA polymerase and is short-lived in infected cells. We show here that nsP4 produced in reticulocyte lysates is degraded by the N-end rule pathway, one ubiquitin-dependent proteolytic pathway. When the N-terminal residue of nsP4 is changed by mutagenesis, the metabolic stabilities of the mutant nsP4s follow the N-end rule, in that the half-life of nsP4 bearing different N-terminal residues decreases in the order Met greater than Ala greater than Tyr greater than or equal to Phe greater than Agr. Addition of dipeptides Tyr-Ala, Trp-Ala, or Phe-Ala to the translation mixture inhibits degradation of Tyr-nsP4 and Phe-nsP4, but not of Arg-nsP4. Conversely, dipeptides His-Ala, Arg-Ala, and Lys-Ala inhibit the degradation of Arg-nsP4 but not of Tyr-nsP4 or Phe-nsP4. We found that there is no lysine in the first 43 residues of nsP4 that is required for its degradation, indicating that a more distal lysine functions as the ubiquitin acceptor. Strict control of nsP4 concentration appears to be an important aspect of the virus life cycle, since the concentration of nsP4 in infected cells is regulated at three levels: translation of nsP4 requires read-through of an opal termination codon such that it is underproduced; differential processing by the virus-encoded proteinase results in temporal regulation of nsP4; and nsP4 itself is a short-lived protein degraded by the ubiquitin-dependent N-end rule pathway.
...
PMID:Sindbis virus RNA polymerase is degraded by the N-end rule pathway. 192 57

The role of the co-transported cation in the coupling mechanism of the melibiose permease of Escherichia coli has been investigated by analysing its sugar-binding activity, facilitated diffusion reactions and energy-dependent transport reactions catalysed by the carrier functioning either as an H+, Na+ or Li(+)-sugar symporter. The results suggest that the coupling cation not only acts as an activator for sugar-binding on the carrier but also regulates the rate of dissociation of the co-substrates in the cytoplasm by controlling the stability of the ternary complex cation-sugar-carrier facing the cell interior. Furthermore, there is some evidence that the membrane potential enhances the rate of symport activity by increasing the rate of dissociation of the co-substrates from the carrier in the cellular compartment. Identification of the melibiose permease as a membrane protein of 39 kDa by using a T7 RNA polymerase/promoter expression system is described. Site-directed mutagenesis has been used to replace individual carrier histidine residues by arginine to probe the functional contribution of each of the seven histidine residues to the symport mechanism. Only substitution of arginine for His94 greatly interferes with the carrier function. It is finally shown that mutations affecting the glutamate residue in position 361 inactivate translocation of the co-substrates but not their recognition by the permease.
...
PMID:The melibiose/Na+ symporter of Escherichia coli: kinetic and molecular properties. 197 Jun 46

When His248 of the transcription factor S-II was replaced by alanine or tyrosine, the activity of the resulting mutants was less than 30% of that of the wild-type S-II. When Arg246, Glu247, and His248 were all replaced by leucine, the resulting mutant showed complete loss of activity. These results indicate that the amino acid sequence Arg-Glu-His at positions 246-248 of S-II is important for its stimulatory activity. The mutant S-II with no activity could not form a complex with RNA polymerase II, unlike wild-type S-II, but retained ability to interact with DNA.
...
PMID:Site-directed mutagenesis of arginine 246, glutamic acid 247, and histidine 248 in the eukaryotic transcription factor S-II. 197 65

Recognition of -24/-12-type promoters by RNA polymerase requires a special sigma factor, sigma 54 (RpoN NtrA GlnF). In the nitrogen-fixing soybean symbiont Bradyrhizobium japonicum, two functional, highly conserved rpoN genes (rpoN1 and rpoN2) were identified and sequenced. The two predicted B. japonicum RpoN protein sequences were 87% identical, and both showed different levels of homology to the RpoN proteins of other bacteria. Downstream of rpoN2 (but not of rpoN1), two additional open reading frames were identified that corresponded to open reading frames located at similar positions in Klebsiella pneumoniae and Pseudomonas putida. Both B. japonicum rpoN genes complemented the succinate- and nitrate-negative phenotypes of a Rhizobium meliloti rpoN mutant. B. japonicum strains carrying single or double rpoN mutations were still able to utilize C4-dicarboxylates as a carbon source and histidine, proline, or arginine as a nitrogen source, whereas the ability to assimilate nitrate required expression of at least one of the two rpN genes. In symbiosis both rpoN genes could replace each other functionally. The rpoN1/2 double mutant induced about twice as many nodules on soybeans as did the wild type, and these nodules lacked nitrogen fixation activity completely. Transcription of a nifH'-'lacZ fusion was not activated in the rpoN1/2 mutant background, whereas expression of a fixR'-'lacZ fusion in this mutant was affected only marginally. By using rpoN'-'lacZ fusions, rpoN1 expression was shown to be activated at least sevenfold in microaerobiosis as compared with that in aerobiosis, and this type of regulation involved fixLJ. Expression of rpoN2 was observed under all conditions tested and was increased fivefold in an rpoN2 mutant. The data suggested that the rpoN1 gene was regulated in response to oxygen, whereas the rpoN2 gene was negatively autoregulated.
...
PMID:Bradyrhizobium japonicum has two differentially regulated, functional homologs of the sigma 54 gene (rpoN). 199 12

A gene (rtr-1) coding for the tRNAArgACG has been isolated and characterized from the nematode, Caenorhabditis elegans. The coding portion is not interrupted by an intron and is followed by a track of four thymidines associated with termination by RNA polymerase III. The predicted mature product is 76 nucleotides (nt) long including the CCA tail, and is specific for the most used Arg codon in C. elegans. The gene can be transcribed and processed in a homologous in vitro system. The 82-nt primary transcript begins at the first purine upstream from the mature tRNA 5' end and terminates after the first thymidine of the terminator signal.
...
PMID:Cloning and expression in vitro of a gene encoding tRNAArgACG from the nematode Caenorhabditis elegans. 199 92

The specificity of regulation by attenuation of the ilvGMEDA operon of Escherichia coli was examined by making alterations in the peptide-coding portion of the leader region. The effects of the alterations on attenuation control were monitored by operon fusions with the lacZ or cat gene. Substitution of the tandem leucine codons with arginine codons did not result in arginine control of attenuation even though the altered leader transcripts contained three consecutive arginine codons. Substitution of the single leucine codon with a proline codon at position 10 of the putative peptide, which had been shown to be important in the regulation of the Serratia marcescens ilv operon, did not result in control of attenuation by proline. Since the formation of neither proline nor arginine biosynthetic enzymes is regulated by attenuation control, the effect of tandem phenylalanine codons in place of the tandem leucine codons was examined and found not to result in control by phenylalanine supply. The latter failure may have been due to a configuration in the secondary structure of the protector stem of the leader transcript different from that of the wild-type transcript. The results of the study favored the idea that the lead ribosome does not initiate translation of the leader transcript until after the RNA polymerase has reached the pause site (117 bases into the leader region).
...
PMID:Mutations replacing the leucine codons or altering the length of the amino acid-coding portion of the ilvGMEDA leader region of Escherichia coli. 200 56

The recognition of promoter region -10 nucleotide sequences in prokaryotes is believed to be mediated by a segment of alpha-helix in a region of RNA polymerase sigma factors called 2.4. Earlier genetic studies implicated Thr-100 in region 2.4 of the Bacillus subtilis sigma factor sigma H in the recognition of the G.C base pair at position -13 in the -10 region (GAAT) of a cognate promoter. In confirmation of this assignment, we now show that a change-of-specificity mutant of sigma H in which Thr-100 was replaced with isoleucine suppresses a G.C----A.T nucleotide substitution at position -13 but not other "promoter down mutations" (causing impaired promoter activity) at positions -13, -12, and -11. We also show that a loss-of-contact mutant created by the replacement of Thr-100 with alanine (having a short side chain) enables sigma H to tolerate three different promoter down mutations at position -13 but not down mutations at other positions. Finally, we suggest the identification of an additional amino acid involved in base-pair recognition by the demonstration that the replacement of Arg-96 with alanine specifically suppresses an A.T----G.C promoter down mutation at position -12. The identification of amino acids that are four residues apart that are involved in the recognition of adjacent base pairs may fix the orientation of region 2.4 (its NH2 terminus being proximal to the promoter transcription start site) and is consistent with a model in which the recognition of promoter region -10 nucleotide sequences is mediated by an alpha-helix in which residues involved in base-pair contact are separated by one turn and clustered on one face of the helix.
...
PMID:Two amino acids in an RNA polymerase sigma factor involved in the recognition of adjacent base pairs in the -10 region of a cognate promoter. 212 53

A mutagenic oligonucleotide cassette was used to introduce single and tandem amino acid substitutions into the proteinase 3C coding region of an infectious poliovirus type 1 cDNA. The sites targeted for mutagenesis, residues 60, 61, and 66, are located within a putative helical loop structure which may be involved in substrate recognition by the enzyme. Fourteen viable 3C proteinase mutants were isolated. A Lys----Arg substitution at position 60 resulted in cold sensitivity for growth at 33 degrees. Replacement of Lys 60 with Ile, either singly or in combination with substitutions at position 61, resulted in viruses that produced three- to fivefold more 3D RNA polymerase than wild-type poliovirus. 3C-mediated processing of the remaining sites within the polyprotein was not noticeably affected. The overproduction of 3D is a consequence of more efficient processing of the carboxy-terminal Gln-Gly amino acid pair of 3C. Together with a previous report in which substitution of Val 54 with an Ala residue results in a poliovirus that produces decreased levels of 3D, these observations provide evidence that the putative loop region (residues 51-66) may be a functional domain involved in recognition of the carboxy-terminal Gln-Gly cleavage site of 3C.
...
PMID:A genetic locus in mutant poliovirus genomes involved in overproduction of RNA polymerase and 3C proteinase. 215 85


<< Previous 1 2 3 4 5 6 7 8 9 10 Next >>

---