Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts:   Target Concepts:
Query: EC:3.1.26.4 (RNase H)
 2,751 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Transcription termination in vitro by vaccinia RNA polymerase is dependent on a trans-acting factor, VTF, that is associated with, if not identical to, the vaccinia mRNA capping enzyme. VTF-induced termination occurs approximately 50 nucleotides downstream of a signal sequence TTTTTNT in the non-transcribed templated strand; thus the cognate sequence UUUUUNU is expressed in the nascent RNA. To address the role of the nascent RNA in chain termination, the effects of nucleotide base analog substitutions were studied. Incorporation of bromo- (Br) UMP or iodo- (I) UMP into RNA abrogated factor-dependent termination without preventing the synthesis of read-through transcripts. Substitution of either ITP or 7'-methylguanosine for GTP did not inhibit factor-dependent termination, nor did the substitution of BrCTP or ICTP for CTP. The early transcripts synthesized in vitro were sensitive to RNase T2 but resistant to RNase H, indicating an absence of extensive hybridization of RNA product to the DNA template. Substitution of BrUTP for UTP did not alter the nuclease sensitivity of the transcripts, suggesting that increased stability of RNA:DNA hybrid structures did not account for the analog effects. These results are consistent with a model in which recognition of the primary sequence UUUUUNU in nascent RNA by the polymerase and/or VTF is required for transcription termination.
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PMID:Factor-dependent transcription termination by vaccinia virus RNA polymerase. Evidence that the cis-acting termination signal is in nascent RNA. 283 68

Recently we showed that the major mammalian RNase H, RNase HI, is evolutionarily related to prokaryotic RNase HII (Frank et al., FEBS-Lett. 421, 23-26, 1998), an enzyme described to be a minor activity in E. coli. As a consequence we addressed the question of whether a human RNase H exists, sharing homology with the main E. coli enzyme, RNase HI. Employing sequence analysis of expressed sequence tags, followed by specific PCR amplification of human cDNA, we cloned, sequenced and expressed a human open reading frame, coding for a 32 kDa protein. Purification of the recombinant His(6)-tagged protein from E. coli extracts using Ni(2+)-chelating chromatography and subsequent renaturation gel assay proved that it is an active RNase H. The properties of this enzyme suggest that it is identical with the human RNase HII, previously purified by one of us (Frank et al., Nucleic Acids Res. 22, 5247-5254, 1994). Studies using a green fluorescent protein-fusion construct reveal that this protein is located in the nucleus.
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PMID:Cloning, subcellular localization and functional expression of human RNase HII. 989 7

Six ORFs of unknown function located on chromosome VII of Saccharomyces cerevisiae were disrupted in two different genetic backgrounds, and the phenotype of the generated mutants was analysed. Disruptions of ORFs YGR256w, YGR272c, YGR273c, YGR275w and YGR276c were carried out using the disruption marker kanMX4 flanked by short homology regions, whereas ORF YGR255c was inactivated with a long flanking homology (LFH) disruption cassette (Wach et al., 1994). Tetrad analysis of the heterozygous disruptants revealed that ORF YGR255c, previously identified as COQ6 and encoding a protein involved in the biosynthesis of coenzime Q (Tzagoloff and Dieckmann, 1990), is an essential gene. The same analysis also revealed that sporulation of the ygr272cDelta heterozygous diploid produced two small colonies per ascus that were also G418-resistant, indicating that the inactivation of ORF YGR272c could result in a slower growth rate. This result was confirmed by growth tests of the haploid disruptants and by complementation of the phenotype after transformation with a plasmid carrying the cognate gene. No phenotypes could be associated to the inactivation of ORFs YGR256w, YGR273c, YGR275w and YGR276c. Two of these genes have recently been further characterized: ORF YGR255w, renamed RTT102, encodes a regulator of the Ty1-element transposition, whereas ORF YGR276c was found to encode the 70 kDa RNase H activity and was renamed RNH70 (Frank et al., 1999).
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PMID:Disruption of six novel genes from chromosome VII of Saccharomyces cerevisiae reveals one essential gene and one gene which affects the growth rate. 1066 75