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)

Wildtype and mutant v-Myc proteins were overexpressed in Escherichia coli using the T7 RNA polymerase system, and the in vitro DNA-binding activities of partially or highly purified proteins were analysed by native DNA-cellulose chromatography. For the construction of the expression plasmids, cloned proviral DNA from wildtype MC29 or from its spontaneous deletion mutant Q10C was used, the latter lacking internal v-myc sequences. Both the wildtype (p59) and the mutant (p42) recombinant protein contain at their amino termini 12 amino acids encoded by the vector, followed by 11 gag amino acids and 9 amino acids encoded by v-myc sequences derived from noncoding c-myc sequences. In addition, p59 contains 416 amino acids encoded by v-myc sequences derived from the complete chicken c-myc coding region, whereas p42 lacks 120 amino acids from the central region of the Myc protein including the highly acidic domain. Two additional proteins were engineered which contain the first 309 (p53) or the last 107 (p16) amino acids, respectively, of the Myc protein sequence in addition to vector-encoded amino acids. The p16 protein represents the carboxyl terminus of the Myc protein sequence containing both a muscle determination gene (MyoD1) homology region, including a basic motif and an amphipathic helix-loop-helix motif, and a leucine heptad repeat. All proteins, except p53 which lacks the carboxyl-terminal Myc protein sequences, bound to native DNA-cellulose and were eluted with 200-500 mM NaCl. Based on the DNA-binding activities of recombinant or spontaneous mutant v-Myc proteins extracted from bacterial or from transformed avian cells, we conclude that the DNA-binding domain of avian Myc proteins is confined within the last 86 carboxyl-terminal amino acids. The same region is also shown to be necessary and sufficient for Myc protein dimerization. This 86-amino acid region essentially encompasses a putative basic DNA contact surface and a tandem array of two presumed protein dimerization motifs, helix-loop-helix and leucine repeat.
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PMID:Myc protein structure: localization of DNA-binding and protein dimerization domains. 199 48

Four adjacent Leu codons within the leu leader RNA are critically important in transcription attenuation-mediated control of leu operon expression in Salmonella typhimurium and Escherichia coli (P. W. Carter, D. L. Weiss, H. L. Weith, and J. M. Calvo, J. Bacteriol. 162:943-949, 1985). The leader region from S. typhimurium was altered by site-directed mutagenesis to produce constructs having between one and seven adjacent Leu codons, all CUA. leu operon expression was measured in strains containing six of these constructs, each integrated into the chromosome in a single copy. Operon expression was sufficiently high that all strains grew in minimal medium unsupplemented by leucine. Expression of the operon was measured in strains cultured in such a way that their growth was limited by the intracellular concentration of either leucine or of leucyl-tRNA. In general, the leu operon for each construct responded similarly to the parent construct in terms of the degree of expression as a function of the degree of limitation. However, a strain containing (CUA)1 and, to a certain extent, a strain having (CUA)2 responded somewhat more sluggishly and strains containing (CUA)6 and (CUA)7 responded more sensitively to limitations than did the parent construct. In addition, DNA fragments containing the leu promoter and leader region were used as templates in in vitro transcription reactions employing purified RNA polymerase. With nucleoside triphosphate concentrations of 200 microM, RNA polymerase paused during transcription of the leu leader region at a site about 95 bp downstream from the site of transcription initiation. The halftimes of the pause were 1 min at 37 degrees C and 3 min at 22 degrees C. The pause was lengthened substantially when the GTP concentration was lowered to 20 micromoles. Our results are interpreted most easily in terms of an all-or-none model. Given two Leu control codons, the operon responds with nearly maximum output over a wide range of leucine limitation, and that outcome does not change much with increasing numbers of control codons.
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PMID:Transcription attenuation-mediated control of leu operon expression: influence of the number of Leu control codons. 199 84

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).
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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 effect of infusion of a methionine-free total parenteral nutrition solution for 7 d on ribonucleic acids in liver of rats were investigated. The control solution contained leucine, valine, isoleucine, lysine, phenylalanine, threonine, tryptophan, arginine, histidine, glycine, methionine, glucose and vitamins and minerals. Deprivation of a methionine is known to increase the activity of RNA polymerase I. Infusing the methionine-free solution resulted in the accumulation of RNA molecules larger than 28S in the liver nuclei and resulted in a higher rate of rRNA synthesis than in rats infused with the control solution. A methionine deficiency did not impede either the processing of 45S pre-rRNA or transport of 28S and 18S rRNA into cytoplasm. When rats were infused with the methionine-free solution for 7 d followed by the control solution for 2 d, the level of RNA in the nucleus as well as the rate of RNA polymerase I were similar to the levels in rats receiving the control solution for 9 d. There were no significant changes in the rate of DNA synthesis due to nutritional manipulations.
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PMID:Alteration in the ribonucleic acids in rat liver induced by a methionine-free total parenteral nutrition solution. 243 90

Since previous studies have suggested that the mammalian protamine mRNAs are translated poorly in cell-free systems, we directly measured the efficiency of translation of mouse protamine 1 mRNA. We found that mouse testis poly(A)+ mRNA stimulates the synthesis in the wheat germ and reticulocyte cell-free systems of three prominant translation products which can be resolved by electrophoresis through acid urea polyacrylamide gels containing 8 M urea. These translation products have been identified as testis-specific protein, protamine 1, and the precursor to protamine 2 by several criteria, including labeling with amino acids, [35S]cysteine, and [3H]leucine, which are known to be specific to some of these proteins from the nucleotide sequences of recombinant DNAs. Surprisingly, the mobility of the testis-specific protein translation product is slightly reduced and the mobility of both protamine translation products is drastically reduced unless the extracts of cell-free translations are coelectrophoresed with the appropriate carrier. The fraction of [35S]cysteine- labeled protamine 1 translation product was compared with the fraction of testis poly(A)+ mRNA as protamine 1 mRNA which we measured in dot blots with the use of an SP6 RNA polymerase transcript for protamine 1. The results demonstrate that protamine 1 mRNA is translated only slightly less efficiently than the average testis poly(A)+ mRNA.
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PMID:Translation of mouse testis poly(A)+ mRNAs for testis-specific protein, protamine 1, and the precursor for protamine 2. 244 49

Based on precedents from other retroviruses, the precursor of the human immunodeficiency virus (HIV-1) reverse transcriptase is predicted to be a polyprotein with a relative molecular mass (Mr) of 160,000 (160K) encoded by both the viral pol gene and the upstream gag gene. These two genes lie in different translational reading frames, with the 3' end of gag overlapping the 5' end of pol by 205 or 241 nucleotides. Thus, production of the gag-pol fusion protein would require either messenger RNA processing or translational frameshifting. The latter mechanism has been shown in the synthesis of the gag-pol proteins of two other retroviruses, Rous sarcoma virus (RSV) and mouse mammary tumour virus (MMTV). Here we report that translation of HIV-1 RNA synthesized in vitro by SP6 RNA polymerase yields significant amounts of a gag-pol fusion protein, indicating that efficient ribosomal frameshifting also occurs within the HIV-1 gag-pol overlap region. Site-directed mutagenesis and amino-acid sequencing localized the site of frameshifting to a UUA leucine codon near the 5' end of the overlap.
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PMID:Characterization of ribosomal frameshifting in HIV-1 gag-pol expression. 244 6

Previous publications from this laboratory have demonstrated that agents such as methotrexate (MTX), 5-fluorodeoxyuridine (FUdR), trimethoprim, and D-glucosamine (D-GlcN), which are known to inhibit thymidylate synthesis, can augment human NK activity in vitro. Furthermore, this augmentation was inhibited by exogenous thymidine (TdR) at concentrations of 10(-6) to 10(-7) M. In this report, underlying mechanisms of action of FUdR, D-GlcN, and IFN are compared. Each of these agents increased the lytic activity of effector cells bound to targets but did not increase the percentage of conjugates formed. The augmentation could be induced in a population highly enriched for NK cells (Leu-1 lb positive in phenotype). FUdR and D-GlcN could not induce any augmentation in a Leu-1 lb-negative subpopulation whereas IFN could induce significant lytic activity. alpha-Amanitin, an inhibitor of RNA polymerase II, blocked the activation of NK activity by all three reagents; hence gene expression was required. Comparison of [35S]methionine-labeled proteins by two-dimensional gel electrophoresis revealed that six new proteins were induced in IFN-treated cells. Three of these were similar in pI and molecular weight to the newly synthesized proteins in the D-GlcN-treated cells. One protein was synthesized in increased amounts in the FuDR-treated cells and it was not common to either of the other treatments. Evidence to date is consistent with the hypothesis that separate mechanisms underlie the activation of NK cells by IFN and thymidylate synthesis inhibitors, although the existence of a final common pathway for all NK response modulators cannot be excluded at the present time.
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PMID:Studies on the mechanism of activation of human natural killer function by interferon and inhibitors of thymidylate synthesis. 244 44

We have constructed a plasmid expressing E. coli M1 RNA, the catalytic RNA subunit of ribonuclease P, under the control of a phage T7 promoter. The active M1 RNA species synthesized in vitro by T7 RNA polymerase from this vector was reacted with the tRNA(Gln) - tRNA(Leu) precursor RNA (Band K) encoded by phage T4. Only the tRNA(Leu) moiety of this dimeric precursor RNA contains the 3' terminal C-C-A sequence common to all tRNAs. We observed that protein-free M1 RNA was capable of processing the precursor RNA at the 5' ends of both tRNA tRNA sequences. The rate of cleavage of the tRNA(Gln) sequence was more strongly dependent on [Mg2+] than that of tRNA(Leu), increasing severalfold between 100 and 500 mM Mg2+, conditions under which the rate of cleavage at the tRNA(Leu) sequence was constant.
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PMID:Dependence of M1 RNA substrate specificity on magnesium ion concentration. 245 26

Full-length cDNA copies of mRNAs coding for the matrix (M) proteins of vesicular stomatitis virus and its mutant tsO23(III) were cloned in pBSM13- (BlueScribe). The authenticity of these clones was demonstrated by restriction enzyme mapping, DNA sequencing, and in vitro transcription and translation to identify the two M proteins by Western immunoblotting with epitope-specific monoclonal antibodies. Site-directed mutants were constructed by primer extension of synthetic oligodeoxynucleotides with one or two nucleotide changes to alter the glycine at amino acid 21 of the wild-type (wt) M gene to glutamic acid, alanine, or proline. Similarly, a revertant was created in the M gene of mutant tsO23 by a Glu-21----Gly substitution. A series of wt- and mutant-M-gene chimeras was also constructed to create mutant and revertant clones with Leu----Phe and His----Tyr alterations at amino acids 111 and 227, respectively. We then moved the wt and tsO23 M genes and their site-specific mutants and chimeras cloned in pBSM13- into the eucaryotic expression vector pTF7 directed by the T7 bacteriophage RNA polymerase of the vaccinia virus recombinant vTF1-6,2. Western blot analysis of the M proteins transiently expressed in CV-1 cells by plasmids carrying M genes altered at amino acid 21 revealed that the critical antigenic determinant (epitope 1) is expressed only by the Gly-21 M protein and not by Glu-21, Ala-21, or Pro-21 M proteins. Of particular interest is an apparent conformational change, evidenced by slightly but significantly retarded electrophoretic migration, in plasmid-expressed M proteins with amino acids substituted for glycine at position 21. The glutamic acid at position 21 of tsO23 is not responsible for its temperature-sensitive phenotype, because a tsO23 revertant plasmid with glycine substituted at position 21 fails to rescue tsO23 virus in cells infected at the restrictive temperature; conversely, plasmids expressing wt M protein with substitutions of glutamic acid, alanine, or proline at position 21 are just as effective in marker rescue of tsO23 as is the Gly-21 wt M protein. Marker rescue experiments with wt- and mutant-M-gene chimeras support the hypothesis of K. Morita, R. Vanderoef, and J. Lenard (J. Virol. 61:256-263, 1987) that the temperature-sensitive phenotype of tsO23 is due to a phenylalanine substituted for leucine at amino acid 111, rather than the His-227----Tyr substitution or the Gly-21----Glu substitution, which independently accounts for the loss of epitope 1 in the mutant M protein of tsO23.(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:Site-specific mutations in vectors that express antigenic and temperature-sensitive phenotypes of the M gene of vesicular stomatitis virus. 245 88

A new DNA-binding unit, composed of four amino acid residues and common in gene regulatory proteins, is proposed. The occurrences of the sequences Ser-Pro-X-X (SPXX) and Thr-Pro-X-X (TPXX) in gene regulatory proteins are compared with those in general proteins. These sequences are found more frequently in gene regulatory proteins including homoeotic gene products, segmentation gene products, steroid hormone receptors and certain oncogene products, than they are in DNA-binding proteins that are not directly involved in gene regulation, such as the core histones, or in general proteins. It is therefore suggested that these sequences contribute to DNA-binding in a manner important for gene regulation. Amino acid residues characteristic of the types of proteins are found as the variable residues X: basic residues, Lys and Arg, in histones, H1 and sea urchin spermatogenous H2B; Tyr in RNA polymerase II; and Ser, Thr, Ala, Leu and Pro in other gene regulatory proteins S(T)PXX sequences are located on either side of other DNA-recognizing units such as Zn fingers, helix-turn-helices, and cores of histones. The structure of a S(T)PXX sequence is presumed to be a beta-turn I stabilized by two hydrogen bonds, and its potential mode of DNA-binding is discussed.
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PMID:SPXX, a frequent sequence motif in gene regulatory proteins. 250 May 31


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