Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: EC:3.1.27.1 (RNase)
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The SK-v cells, established from a premalignant vulvar lesion, contain human papillomavirus type 16 (HPV-16) sequences integrated at a single cellular site and derive from a cell clone present in vivo. Transcription of the HPV-16 genome in SK-v cells was analysed by cDNA heteroduplex mapping and sequencing, and by RNase mapping. Viral sequences were shown to be transcribed into virus-cell fusion messengers. The two major transcripts have a coding capacity for a truncated E6 protein, an E7 protein and an E1-E4 fusion protein, but differ in their 3' virus-cell junction. Minor transcripts have a coding capacity for a full-length E6 protein and another truncated version of E6. The transcription pattern in the E6-E7 region was found to be the same both in SK-v cells and in CaSki cells, a line derived from an invasive cervical carcinoma. Immunoprecipitation experiments showed that the E6 protein (18K) and, predominantly, the E7 protein (20K) are expressed in SK-v cells as in CaSki cells. The E7 protein was found in a two- to threefold lower amount in SK-v cells, but showing the same half-life (about 1 h).
J Gen Virol 1990 Apr
PMID:Expression of the human papillomavirus type 16 genome in SK-v cells, a line derived from a vulvar intraepithelial neoplasia. 215 96

The rotavirus genome consists of 11 segments of dsRNA that are replicated asymmetrically with plus strand RNA serving as the template for minus strand RNA synthesis. In this study, we have used non-denaturing gel electrophoresis to examine subviral particles that synthesize dsRNA (replicase particles), for possible changes in structure during RNA replication. Analysis of SVPs purified from simian rotavirus SA11-infected MA104 cells and resolved on 0.6% agarose gels containing 50 mM-Tris-glycine pH 8.8 showed that the overall size of particles able to synthesize dsRNA in a cell-free system was 100 nm or more. Electrophoretic analysis of the size of replicase particles as a function of length of incubation in the cell-free system demonstrated that replicase particles decreased in size with increasing length of incubation. However, after 60 to 90 min of incubation, replicase particles no longer changed in size but were similar in size to the rotavirus single-shelled (75 nm), core (60 nm) and precore (45 nm) replicative intermediates which have been described previously. As the size of replicase particles decreased with increasing length of incubation, the number of newly made genome-length dsRNAs in the particles increased. Analysis of the RNA products detected in replicase particles showed that RNA replication is regulated such that the synthesis of full-length dsRNAs in the replicase particle proceeds from the smallest to the largest genome segments. Treatment of replicase particles with single-strand-specific RNase reduced their size to that of replicative intermediates and interfered with their ability to synthesize dsRNA, thus indicating that the plus strand RNA template for replication extends from the replicase particle. This study showed that replicase particles undergo a continuous change in size during RNA replication due apparently to plus strand RNA templates moving into the replicase particle during the synthesis of dsRNA.
J Gen Virol 1990 May
PMID:Rotavirus RNA replication: single-stranded RNA extends from the replicase particle. 216 Oct 46

Human papillomavirus type 8 (HPV-8) is one aetiological agent of macular and flat wart-like lesions in patients with epidermodysplasia verruciformis and appears to be closely linked to skin carcinogenesis. A 1.2 kb region of the genome, which was previously shown to contain a viral E2-dependent enhancer, was progressively shortened from both ends with Bal 31. The resulting fragments were tested for their ability to stimulate chloramphenicol acetyltransferase (CAT) expression from the simian virus 40 (SV 40) promoter. This analysis showed a complex interaction between cis-active, positive and negative control elements located throughout the non-coding region and the flanking reading frames. Two separate positively acting sequences significantly stimulated expression only in cooperation with a third region, which led to 12-fold, E2-dependent enhancement on its own. A major negative element was not only active in the context of HPV-8 sequences, but also down-regulated SV40 enhancer-promoter-driven CAT expression when cloned downstream of the transcription unit. It acted at the transcriptional levels as shown by RNase protection assays and can therefore be regarded as a cis-acting silencer of transcription.
J Gen Virol 1990 Oct
PMID:Human papillomavirus type 8 contains cis-active positive and negative transcriptional control sequences. 217 59

A family of cross-hybridising cDNA clones has been isolated from a cDNA library produced with poly(A)+ RNA from the roots of oilseed-rape (Brassica napus L.). The clones were selected as abundantly expressed in root by differential screening of the root cDNA library with cDNA probes prepared from root, green leaf, etiolated leaf and developing seed. mRNA species corresponding to the selected abundant clones were expressed in roots at levels of at least 400 times those in other organs, as shown by Northern blot analysis and RNase protection assays. Complete nucleotide sequence determination of the cDNA clones showed that they encoded proteins homologous to carrot extensin and were the products of at least three different genes. An extensin gene, designated extA, was obtained from an oilseed rape (B. napus L.) genomic library screened with a cDNA species encoding a protein expressed abundantly in roots. The gene is a member of a multigene family, consisting of about 3 members per haploid genome with strong homology to the probe, and a further 20 or so members with weaker homology. The isolated gene, although not identical to the cDNA probe, was also found to be specifically expressed in roots, and was transcribed into a mRNA species approximately 1,300 nucleotides in size. A single transcription start was identified by S1 mapping. The complete nucleotide sequence of the extA gene and its flanking regions has been determined and shown to encode a protein homologous to carrot and tomato extensins.
Mol Gen Genet 1990 Sep
PMID:The extensin gene family in oilseed rape (Brassica napus L.): characterisation of sequences of representative members of the family. 225 Jun 53

We present in this paper the structural analysis of two members of a small cellulase gene family, designated cel1 and cel2, from avocado. These genes were isolated by screening a lambda EMBL3 genomic library with a ripening-induced cellulase cDNA. Restriction endonuclease and Southern blot analyses showed that the cel1 gene is highly homologous to the cellulase cDNA and thus represents a ripening-related cellulase gene. The other cellulase gene, cel2, is closely related to cel1, but is divergent at its 5' end. The nucleotide sequence of a 5 kb region encompassing the cel1 gene was determined. Four previously characterized cellulase cDNAs from ripe fruit are identical to the eight exons of the cel1 gene. RNase protection and primer extension analyses were used to define the transcription start site of cel1 and to quantitate cel1 transcripts in ripening fruit. The cel1 mRNA was present at a low level in unripe fruit and increased 37-fold during ripening. Partial DNA sequence analysis of cel2 and comparison to the cel1 sequence revealed a high degree of similarity both at the DNA and deduced amino acid sequence levels. No characterized cellulase cDNAs derived from ripe fruit represent cel2 transcripts. These data suggest that the cel1 gene is responsible for a major portion, if not all, of the cellulase transcripts in ripe fruit. The DNA sequence of 1.4 kb of 5' flanking DNA of the cel1 gene was compared to the upstream sequence of other ethylene-regulated genes. Several interesting upstream sequence motifs were identified and are discussed.
Mol Gen Genet 1990 Aug
PMID:Isolation and characterization of a cellulase gene family member expressed during avocado fruit ripening. 225 45

We have isolated and sequenced cDNAs for S2- and S3-alleles of the self-incompatibility locus (S-locus) in Solanum chacoense Bitt., a wild potato species displaying gametophytic self-incompatibility. The S2- and S3-alleles encode pistil-specific proteins of 30 kDa and 31 kDa, respectively, which were previously identified based on cosegregation with their respective alleles in genetic crosses. The amino acid sequence homology between the S2- and S3-proteins is 41.5%. This high degree of sequence variability between alleles is a distinctive feature of the S-gene system. Of the 31 amino acid residues which were previously found to be conserved among three Nicotiana alata S-proteins (S2, S3, and S6) and two fungal ribonucleases (RNase T2 and RNase Rh), 27 are also conserved in the S2- and S3-proteins of S. chacoense. These residues include two histidines implicated in the active site of the RNase T2, six cysteines, four of which form disulfide bonds in RNase T2, and hydrophobic residues which might form the core structure of the protein. The finding that these residues are conserved among S-proteins with very divergent sequences suggests a functional role for the ribonuclease activity of the S-protein in gametophytic self-incompatibility.
Mol Gen Genet 1990 Dec
PMID:Cloning and sequencing of cDNAs encoding two self-incompatibility associated proteins in Solanum chacoense. 226 40

The nucleotide sequences of 1288 bp of plasmid ColE5-099, 1609 bp of ColE6-CT14 and 2099 bp of ColE9-J were determined. These sequences encompass the structural genes for the C-terminal receptor-binding and nuclease domains of colicins E5, E6 and E9, their cis- or trans-acting immunity proteins and four lysis proteins including an atypical one of non-lipoprotein nature (Lys) present in the ColE9-J plasmid. The ColE6 gene organisation, in the order col-imm-E8imm-lys, is identical to that found in the previously described double-immunity gene system of ColE3-CA38 (an RNase producer). The corresponding genes in the two plasmids are 87%-94% homologous. In ColE9-J, the genes are organised as col-imm-lys-E5imm-lys. The E9 col-imm gene pair is homologous to the colicin E2-P9 type (a DNase producer). Downstream from E9imm is an E5imm (designated E5imm[E9]) which is trans-acting. Neither the predicted structures of E5Imm[E9] nor the cis-acting Imm resident in the ColE5-099 plasmid which differs by a single amino acid shows any resemblance to other immunity structures which have been sequenced. Furthermore, the E5col sequences differ from those predicted previously for other colicins except for the conserved btuB-specified receptor-binding domain. A novel 205 nucleotide long insertion sequence is found in the ColE9-J plasmid. This insertion sequence, which we named ISE9, has features reminiscent of the degenerate transposon IS101 previously found in plasmid pSC101. One effect of ISE9 is the presence of the atypical lysis gene, lys.(ABSTRACT TRUNCATED AT 250 WORDS)
Mol Gen Genet 1989 Jun
PMID:Nucleotide sequences from the colicin E5, E6 and E9 operons: presence of a degenerate transposon-like structure in the ColE9-J plasmid. 254 75

Bacteriophage T4 gene 32 lies at the 3' end of a complex transcription unit which includes genes 33, 59, and several open reading frames. In the course of an infection, four major transcripts are synthesized from this unit: two overlapping polycistronic transcripts about 3800 and 2800 nucleotides in length, and two monocistronic gene 32 transcripts about 1150 and 1100 nucleotides in length. These transcripts are made at different times in infection and the polycistronic transcripts have segmental differences in stability. Messenger RNA processing yields a 1025 nucleotide monocistronic gene 32 transcript, and a 135 nucleotide transcript containing part of the gene 59 coding sequence. Processing depends on Escherichia coli encoded ribonuclease E. This pattern of transcription and processing leads to the synthesis of gene 32 mRNA throughout infection, whereas transcripts encoding the upstream genes are present only early in infection. The 3800 nucleotide polycistronic transcript initiates at a promoter that does not require T4 encoded factors for activity. However, full-length synthesis of this transcript depends on the T4 mot gene product. The region upstream of gene 32 also contains four E. coli-like promoters that are active on chimeric plasmids in uninfected cells, but inactive in bacteriophage T4. The location of these cryptic T4 promoters is intriguing in that they lie near the 5' ends of open reading frame B, gene 59 and gene 32. They could play a role in phage development under particular conditions of growth or in bacterial hosts other than those examined here.
Mol Gen Genet 1989 Oct
PMID:Transcription and messenger RNA processing upstream of bacteriophage T4 gene 32. 261 64

We report that pdxA, which is required for de novo biosynthesis of pyridoxine (vitamin B6) and pyridoxal phosphate, belongs to an unusual, multifunctional operon. The pdxA gene was cloned in the same 3.5-kilobase BamHI-EcoRI restriction fragment that contains ksgA, which encodes the 16S rRNA modification enzyme m6(2)A methyltransferase, and apaH, which encodes diadenosine tetraphosphatase (ApppA hydrolase). Previously, Blanchin-Roland et al. showed that ksgA and apaH form a complex operon (Mol. Gen. Genet. 205:515-522, 1986). The pdxA gene was located on recombinant plasmids by subcloning, complementation, and insertion mutagenesis, and chromosomal insertions at five positions upstream from ksgA inactivated pdxA function. DNA sequence analysis and minicell translation experiments demonstrated that pdxA encoded a 35.1-kilodalton polypeptide and that the stop codon of pdxA overlapped the start codon of ksgA by 2 nucleotides. The translational start codon of pdxA was tentatively assigned based on polypeptide size and on the presence of a unique sequence that was also found near the translational start of PdxB. This conserved sequence may play a role in translational control of certain pyridoxine biosynthetic genes. RNase T2 mapping of chromosomal transcripts confirmed that pdxA and ksgA were members of the same complex operon, yet about half of ksgA transcripts arose in vivo under some culture conditions from an internal promoter mapped near the end of pdxA. Transcript analysis further suggested that pdxA is not the first gene in the operon. These structural features support the idea that pyridoxine-biosynthetic genes are members of complex operons, perhaps to interweave coenzyme biosynthesis genetically with other metabolic processes. The results are also considered in terms of ksgA expression.
 ...
PMID:Overlap between pdxA and ksgA in the complex pdxA-ksgA-apaG-apaH operon of Escherichia coli K-12. 267 Aug 94

Even when neutralized by saturating amounts of monoclonal IgG directed against the haemagglutinin, influenza virus attaches to cells with kinetics similar to those of infectious virus. It then enters those cells and is uncoated; its RNA becomes localized within the nucleus and its lipid envelope and associated proteins remain in the cytoplasm. In this report we show that despite the apparent normality of these early stages of virus-cell interaction, neutralized virus underwent no detectable primary transcription. In contrast, there was only a slight inhibition of transcription by neutralized virus in vitro which was insufficient to account for the loss in infectivity, despite using mRNA to measure the production of capped oligonucleotides or to prime the elongation step. To test whether the absence of primary transcription in vivo resulted from non-accessibility of the genome rather than an effect on the transcriptase complex itself, we examined the susceptibility to RNase of virion RNA after inoculation of cells with neutralized virus. Data clearly show that, unlike RNA of infectious virus, RNA of neutralized virus did not become sensitive to RNase and we conclude that neutralization of influenza virus by IgG results in failure of virus to undergo a secondary uncoating process which is necessary for the activity of the virion transcriptase complex. Finally we show that by treatment of virions in vitro with detergent it is possible to produce a core structure which is stable and has some of the properties expected of a structure resulting from primary uncoating.
J Gen Virol 1989 Aug
PMID:IgG-neutralized influenza virus undergoes primary, but not secondary uncoating in vivo. 276 31


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