EC:2.7.7.6 - FACTA Search

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

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

Ty3 is a Saccharomyces cerevisiae retrotransposon that integrates near the transcription initiation sites of polymerase III-transcribed genes. It is distinct from the copialike Ty1 and Ty2 retrotransposons of S. cerevisiae in both the sequences of encoded proteins and gene order. It is a member of the gypsylike family of retrotransposons which resemble animal retroviruses. This study was undertaken to investigate the nucleocapsid particle of a transpositionally active gypsylike retrotransposon. Characterization of extracts from cells in which Ty3 expression was induced showed the presence of Ty3 nucleoprotein complexes, or viruslike particles, that migrated on linear sucrose gradients with a size of 156S. These particles are composed of Ty3 RNA, full-length, linear DNA, and proteins. In this study, antibodies raised against peptides predicted from the Ty3 sequence were used to identify Ty3-encoded proteins. These include the capsid (26 kDa), nucleocapsid (9 kDa), and reverse transcriptase (55 kDa) proteins. Ty3 integrase proteins of 61 and 58 kDa were identified previously (L. J. Hansen and S. B. Sandmeyer, J. Virol. 64:2599-2607, 1990). Reverse transcriptase activity associated with the particles was measured by using exogenous and endogenous primer-templates. Immunofluorescence studies of cells overexpressing Ty3 revealed cytoplasmic clusters of immunoreactive proteins. Transmission electron microscopy showed that Ty3 viruslike particles are about 50 nm in diameter. Thus, despite the unusual position specificity of Ty3 upstream of tRNA-coding regions, aspects of the Ty3 life cycle are fundamentally similar to those of retroviruses.
...
PMID:Ty3 GAG3 and POL3 genes encode the components of intracellular particles. 137 Nov 65

A mechanism to explain somatic hypermutation in immunoglobulin variable region genes is proposed employing polynucleotide information transfer through the error prone DNA----RNA----DNA loop. During transcription of the rearranged V-region, the primary transcript undergoes either inappropriate termination, cleavage, or reverse transcriptase priming allowing a V-region specific reverse-transcriptase-integrase complex to synthesize a DNA copy of the rearranged V-region and integrate it, by homologous recombination, back into the normal chromosomal site. Some consequences and predictions of the hypothesis are discussed.
...
PMID:Hypothesis: somatic hypermutation by gene conversion via the error prone DNA----RNA----DNA information loop. 244 41

We determined the DNA sequences of regions essential for bacteriophage P4 integration. A 20 base-pair core sequence in both phage (P4attP) and host (P4attB) attachment regions contains the recombination site. In P4attP this sequence is flanked by five repeated sequences. A 1.3 x 10(3) base open reading frame codes for P4 integrase. Two possible promoters are upstream from P4int. One would be recognized by Escherichia coli RNA polymerase and may be repressed by integrase protein. The second would be recognized by RNA polymerase modified after infection by a P4 helper phage, P2. The P4attB core sequence is the 3' end of a leucine tRNA gene. Downstream from this tRNA in E. coli K-12 is a region homologous to P4int that may be part of a cryptic prophage.
...
PMID:Integration of satellite bacteriophage P4 in Escherichia coli. DNA sequences of the phage and host regions involved in site-specific recombination. 311 56

We analysed transcription of the DNA region immediately downstream of the origin of replication in the chlamydial plasmid pCT. This region comprises two convergent open reading frames (ORF7, ORF8), encoding putative polypeptides that are homologous to each other and with C-terminal domains typical of the phage integrase family of proteins. Northern blot and RNA 5' end mapping analyses indicated that both ORFs were transcribed in the late phase of the chlamydial replicative cycle. RNA mapping showed the presence of a transcript starting 31 nucleotides (nt) before the ATG start codon of ORF7, and two temporally regulated transcripts starting 59 and 89 nt upstream of the ATG start codon of ORF8. Two abundant RNA species of 225 and 415 nt were also identified as overlapping anti-sense transcripts (AS-RNAs), complementary to the 3' end of ORF8 mRNA, with identical 5' ends but different 3' ends. In vitro and in vivo experiments in Escherichia coli showed that the sigma 70-RNA polymerase complex was capable of initiating RNA synthesis at the same sites as observed in Chlamydia trachomatis for ORF7 and AS-RNA transcripts, but was not able to transcribe ORF8. In accord with this, sequences at -10 and -35 nt upstream of the RNA 5' ends resemble sigma 70 consensus promoters in the case of ORF7 and AS, but not in the case of the two ORF8 transcripts. Therefore, transcription of ORF7 and ORF8 is controlled by different types of promoters.(ABSTRACT TRUNCATED AT 250 WORDS)
...
PMID:Transcriptional analysis of the Chlamydia trachomatis plasmid pCT identifies temporally regulated transcripts, anti-sense RNA and sigma 70-selected promoters. 768 69

The yeast retroviruslike element Ty3 inserts at the transcription initiation sites of genes transcribed by RNA polymerase III (Pol III). An in vitro integration assay was developed with the use of Ty3 viruslike particles and a modified SUP2 tyrosine transfer RNA (tRNA(Tyr)) gene target. Integration was position-specific and required Ty3 integrase, Pol III transcription factor (TF) IIIB-, TFIIIC-, and Pol III-containing fractions showed that TFIIIB and TFIIIC, together, were sufficient for position-specific Ty3 integration, but not for transcription. This report demonstrates that in vitro integration of a retroelement can be targeted by cellular proteins.
...
PMID:Requirement of RNA polymerase III transcription factors for in vitro position-specific integration of a retroviruslike element. 787 62

We have isolated the lysogenic bacteriophage SfII, which mediates glucosylation of Shigella flexneri O-antigen, resulting in expression of the type II antigen. SfII belongs to group A of the Bradley classification and has a genome size of 42.3kb. DNA sequencing of a 4 kb BamHI subclone identified four open reading frames (ORFs), of which only two were found to be necessary for serotype conversion. These genes were named bgt, which encodes a putative bactoprenol glucosyl transferase, and gtrII, encoding the putative type II antigen determining glucosyl transferase. These genes are adjacent to the integrase gene (int) and attachment site (attP), which are highly homologous to those of Salmonella bacteriophage P22. Another ORF encoded a highly hydrophobic protein of 120 amino acids with homologues in Escherichia coli, Salmonella bacteriophage P22 and S. flexneri. Previous studies identified gtrX, the glucosyl transferase gene, of bacteriophage SfX, which also glucosylates the O-antigen specifically. We determined that gtrX-mediated expression of the group 7,8 antigen also requires bgt. This allowed us to identify gtrII as being the serotype antigen II determining glucosyl transferase. Southern hybridization and polymerase chain reaction (PCR) analyses indicated that bgt homologues exist in the genomes of all S. flexneri serotypes and in E. coli K-12, whereas gtrII was only detected in strains of serotype 2. Transposon TnphoA-derived chromosomal mutations of bgt and gtrII in S. flexneri serotype 2a were isolated and characterized. [35S]-methionine labelling and the use of a T7 RNA polymerase expression system identified a protein of 34kDa corresponding to Bgt. However, GtrII, which has a predicted molecular weight of 55 kDa, was not detected. We propose that the function of Bgt is to transfer the glucose residues from the UDP-glucose onto bactoprenol and GtrII then transfers the glucose onto the O-antigen repeat unit at the rhamnose III position. The chromosomal organization of these serotype-converting genes, when compared with their homologues in E. coli K-12 chromosome and the P22 bacteriophage genome, were very similar. This suggests that the regions encode similar functions in these organisms and have a similar evolutionary origin.
...
PMID:Mechanism of bacteriophage SfII-mediated serotype conversion in Shigella flexneri. 942 31

The BARE-1 copia-like retrotransposon constitutes nearly 7% of the barley (Hordeum vulgare L.) genome as a family of more than 2 x 10(4) mostly full-length copies dispersed on all chromosomes. BARE-1 elements are transcribed in barley tissues from promoters within the LTR (long terminal repeat). The predicted, translated polyprotein contains conserved domains for GAG, aspartic proteinase, integrase, reverse-transcriptase, and RNase H. Here, we have used inverse PCR with LTR-based primers to establish the consensus sequences for the terminal region of the LTR, the external dinucleotides of the cDNA integration intermediate, and the minus- and plus-strand priming sites. These key functional entities are well-conserved in the BARE-1 family, including wheat Wis2, but differ from those of other plant retrotransposons. The target site duplication was established as 5 bp. Of the 13 integration sites identified here, 8 were other BARE-1 elements and 1 another retrotransposon; 59% of the total 17 identified BARE-1 insertion sites are retrotransposons. This nested insertion pattern may represent a basic feature of plant retrotransposons.
...
PMID:BARE-1 insertion site preferences and evolutionary conservation of RNA and cDNA processing sites. 944 Feb 75

Various cinnammoyl-based structures were synthesized and tested in enzyme assays as inhibitors of the HIV-1 integrase (IN). The majority of compounds were designed as geometrically or conformationally constrained analogues of caffeic acid phenethyl ester (CAPE) and were characterized by a syn disposition of the carbonyl group with respect to the vinylic double bond. Since the cinnamoyl moiety present in flavones such as quercetin (inactive on HIV-1-infected cells) is frozen in an anti arrangement, it was hoped that fixing our compounds in a syn disposition could favor anti-HIV-1 activity in cell-based assays. Geometrical and conformational properties of the designed compounds were taken into account through analysis of X-ray structures available from the Cambridge Structural Database. The polyhydroxylated analogues were prepared by reacting 3,4-bis(tetrahydropyran-2-yloxy)benzaldehyde with various compounds having active methylene groups such as 2-propanone, cyclopentanone, cyclohexanone, 1,3-diacetylbenzene, 2, 4-dihydroxyacetophenone, 2,3-dihydro-1-indanone, 2,3-dihydro-1, 3-indandione, and others. While active against both 3'-processing and strand-transfer reactions, the new compounds, curcumin included, failed to inhibit the HIV-1 multiplication in acutely infected MT-4 cells. Nevertheless, they specifically inhibited the enzymatic reactions associated with IN, being totally inactive against other viral (HIV-1 reverse transcriptase) and cellular (RNA polymerase II) nucleic acid-processing enzymes. On the other hand, title compounds were endowed with remarkable antiproliferative activity, whose potency correlated neither with the presence of catechols (possible source of reactive quinones) nor with inhibition of topoisomerases. The SARs developed for our compounds led to novel findings concerning the molecular determinants of IN inhibitory activity within the class of cinnamoyl-based structures. We hypothesize that these compounds bind to IN featuring the cinnamoyl residue C=C-C=O in a syn disposition, differently from flavone derivatives characterized by an anti arrangement about the same fragment. Certain inhibitors, lacking one of the two pharmacophoric catechol hydroxyls, retain moderate potency thanks to nonpharmacophoric fragments (i.e., a m-methoxy group in curcumin) which favorably interact with an "accessory" region of IN. This region is supposed to be located adjacent to the binding site accommodating the pharmacophoric dihydroxycinnamoyl moiety. Disruption of coplanarity in the inhibitor structure abolishes activity owing to poor shape complementarity with the target or an exceedingly high strain energy of the coplanar conformation.
...
PMID:Geometrically and conformationally restrained cinnamoyl compounds as inhibitors of HIV-1 integrase: synthesis, biological evaluation, and molecular modeling. 976 32

Ty3, a retroviruslike element of Saccharomyces cerevisiae, transposes into positions immediately upstream of RNA polymerase III-transcribed genes. The Ty3 integrase (IN) protein is required for integration of the replicated, extrachromosomal Ty3 DNA. In retroviral IN, a conserved core region is sufficient for strand transfer activity. In this study, charged-to-alanine scanning mutagenesis was used to investigate the roles of the nonconserved amino- and carboxyl-terminal regions of Ty3 IN. Each of the 20 IN mutants was defective for transposition, but no mutant was grossly defective for capsid maturation. All mutations affecting steady-state levels of mature IN protein resulted in reduced levels of replicated DNA, even when polymerase activity was not grossly defective as measured by exogenous reverse transcriptase activity assay. Thus, IN could contribute to nonpolymerase functions required for DNA production in vivo or to the stability of the DNA product. Several mutations in the carboxyl-terminal domain resulted in relatively low levels of processed 3' ends of the replicated DNA, suggesting that this domain may be important for binding of IN to the long terminal repeat. Another class of mutants produced wild-type amounts of DNA with correctly processed 3' ends. This class could include mutants affected in nuclear entry and target association. Collectively, these mutations demonstrate that in vivo, within the preintegration complex, IN performs a central role in coordinating multiple late stages of the retrotransposition life cycle.
...
PMID:Mutations in nonconserved domains of Ty3 integrase affect multiple stages of the Ty3 life cycle. 984 51

Reverse transcriptase (RT) isolated from Rous sarcoma virus (RSV) consists of heterodimeric RTalphabeta, RTalpha, and RTbeta. The alpha subunit (63 kDa) contains an N-terminal polymerase and a C-terminal RNase H domain. The N terminus of beta (95 kDa) corresponds to alpha with the integrase domain attached to the C terminus (32 kDa). We have constructed baculoviruses expressing the genes for alpha or beta or the entire pol (99 kDa). Infection of insect cells with recombinant virus yielded highly active and soluble RSV RT enzymes that could be purified to >90% homogeneity. HPLC gel filtration showed that alpha is a dimeric enzyme that can be partially monomerized upon the addition of 45% Me(2)SO. DNA synthesis on DNA-DNA and DNA-RNA primer-templates in the presence of competitor substrates revealed that alphabeta and beta as well as alpha are processive polymerases. However, the affinity of beta and alphabeta for primer-template substrates appears to be higher than that of alpha. All RSV enzymes investigated have the potential to displace RNA-RNA duplexes more efficiently than human immunodeficiency virus type 1 RT. Unlike human immunodeficiency virus type 1 RT, RSV RTs can catalyze an initial RNase H endonucleolytic cleavage of the RNA template but not a 3' --> 5' directed processing activity.
...
PMID:Soluble Rous sarcoma virus reverse transcriptases alpha, alphabeta, and beta purified from insect cells are processive DNA polymerases that lack an RNase H 3' --> 5' directed processing activity. 1047 89

1 2 3 4 5 6 7 8 Next >>