UMLS:C0001486 - FACTA Search

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Query: UMLS:C0001486 (Adenovirus)
3,125 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The virion polypeptide compositions of 15 human adenovirus types, representing all members of subgroups B and C and selected members of subgroups A and D, have been analyzed by SDS-PAGE. The capsid polypeptides II, III, IIIa and IV displayed a pattern of apparent molecular weights which was characteristic for each adenovirus serotype analyzed. Adenovirus serotypes belonging to the same subgroup were also demonstrated to share an apparent molecular weight pattern of the internal structural polypeptides in the following manner: Subgroup A:V-resolved into two bands of 46--48.5 K and 51--51.5 K; VI-25.5 K; and VII-18 K. Subgroup B:V-53.5--54.5 K; VI-24 K; and VII-18 K. Subgroup C:V-48.5 K; VI-24 K; and VII-18.5 K. Subgroup D:V-50.5 K; VI-23.5 K; and VII-18 K. Adenovirus type 4: V-48 K; VI-24.5 K; and VII-18 K. The structural polypeptides represent a major portion of the adenovirus gene products. It is therefore proposed that the apparent molecular weight differences of viral polypeptides be used (i) to confirm the identification of an adenovirus type, and (ii) for subgroup classification of adenoviruses and, consequently, that adenovirus type 4 should be classified as a member of a separate subgroup designated E.
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PMID:Classification of human adenoviruses by SDS-polyacrylamide gel electrophoresis of structural polypeptides. 42 42

Adenovirus type 2 mRNA was translated in S30 extracts from Ehrlich ascites and wheat embryo cells. The in vitro products were identified by sodium dodecyl sulfate-gel electrophoresis after immunoprecipitation with specific antisera in the presence of urea. Seven virion polypeptides could be identified by immunoprecipitation. Three of these appear to be precursors to polypeptides of the virion. mRNA isolated late in adenovirus infection was separated into three size classes by zonal sedimentation. Material sedimenting at 26S was translated into polypeptides corresponding to the largest virion polypeptides II to IV, a 22S fraction corresponding to polypeptide V, and smaller polypeptides and a 15S fraction corresponding to polypeptide IX. A significant amount of polypeptide IX was also synthesized by the 26S and 22S RNA.
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PMID:Identification of the in vitro translation products of adenovirus mRNA by immunoprecipitation. 80 66

We have isolated a rat cDNA, named FE65, hybridizing to an mRNA of about 2,300 nucleotides present in rat brain, undetectable in rat liver and very poorly represented in other tissues. An mRNA of the same size is present in human neuroblastoma cells and is absent from other human cell lines. The FE65 cDNA contains an open reading frame (ORF) coding for a polypeptide of 499 amino acids in which 143 residues can be aligned with the DNA binding domain of the integrases encoded by mammalian immunodeficiency viruses. The remaining part of the FE65 ORF is not homologous with the correspondent regions of the integrases; the first 206 residues of the FE65 ORF show numerous negative charges and a short sequence not dispensable for the function of the transactivating acidic domain of the jun family transcriptional factors. A plasmid which expresses FE65 amino acids 1-232 fused to the yeast GAL4 DNA binding domain was co-transfected with a plasmid containing five GAL4 binding sites upstream of a minimal Adenovirus promoter controlling the expression of the CAT gene. This experiment showed that the fused protein GAL4-FE65 is able to obtain a 30-40 fold increase of the CAT gene expression compared to the expression observed in the presence of the GAL4 DNA binding domain alone. Two types of FE65 mRNA are present in rat brain, differing only for six nucleotides. We demonstrate that this is the consequence of a neuron-specific alternative splicing of a six-nucleotide miniexon, which is also present in the human genome, in an intron/exon context very similar to that of the rat FE65 gene.
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PMID:A rat brain mRNA encoding a transcriptional activator homologous to the DNA binding domain of retroviral integrases. 192 10

Human transcription factor IIIC contains a 55 kDa polypeptide which specifically interacts with the Adenovirus 2 VAI gene promoter and which mimics most of the DNA binding properties of the entire factor. The specificity and affinity of this protein:DNA interaction was demonstrated by: (i) Separation of purified fractions of hTFIIIC by SDS PAGE, electrotransfer to nitrocellulose, renaturation of proteins and their subsequent binding to the VAI gene, (ii) recovery and renaturation of proteins from SDS gels and identification of a fraction of hTFIIIC with a molecular mass less than 68 kDa, which specifically binds to VAI DNA, (iii) correlating the differential binding activity of the renatured 55 kDa component of hTFIIIC to mutated Pol III promoters with the ability of the entire factor to form functional transcription complexes thereon, and finally by (iv) specific crosslinking of the 55 kDa DNA binding component of hTFIIIC to the photoaffinity labeled B-box promoter sequence of the VAI gene.
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PMID:Human transcription factor IIIC contains a polypeptide of 55 kDa specifically binding to Pol III genes. 239 40

Adenovirus provides helper functions that facilitate replication of adeno-associated virus (AAV). Both the adenovirus E1B 55-Mr and E4 34-Mr polypeptides are required for efficient and timely accumulation of AAV mRNA, proteins, and DNA. The E1B 55-Mr polypeptide is also required for rescue of the integrated AAV genome in Detroit 6-D5 cells in a normal time frame. All of these effects probably result from a single, primary delay in AAV mRNA accumulation. The AAV helper function provided by the E1B 55-Mr and E4 34-Mr polypeptides appears to closely parallel their normal role in the adenovirus replication cycle.
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PMID:Adenovirus E1B 55-Mr polypeptide facilitates timely cytoplasmic accumulation of adeno-associated virus mRNAs. 282 48

Adenovirus type 2 early region 1B (E1B) proteins synthesized in vitro were fractionated chromatographically and characterized by peptide and sequence analysis and by reaction with peptide-specific antisera targeted to either the N or C terminus of either of two overlapping E1B reading frames (175 or 495 codons). In addition to the previously identified E1B-495R, E1B-175R, and E1B-155R species, two other E1B proteins of similar electrophoretic mobility to the 175R protein were identified. E1B-82R is an abundant product in vitro and in vivo that has the same N terminus as that of the 495R and 155R proteins but a different C terminus. The structure of 82R is predicted by the structure of the abundant 13S (1.02-kilobase) E1B mRNA. E1B-168R is a novel minor species consisting of the 24 amino-terminal residues of the 495R protein fused to the entire polypeptide IX sequence. An additional, minor 16,000-molecular-weight polypeptide was detected that may correspond to a predicted 92R E1B protein, but definitive identification was not possible. These observations establish that the leftmost portion (78 codons) of the 495-codon reading frame, which overlaps the right half of the 175-codon reading frame, is expressed as an abundant protein that does not contain other 495R sequences. This region, which may participate in the regulation of region E1A expression, may thus constitute a functional domain distinct from the rightward portion of the 495R protein.
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PMID:Identification of adenovirus type 2 early region 1B proteins that share the same amino terminus as do the 495R and 155R proteins. 296 Aug 32

The three-dimensional crystal structure of the adenovirus major coat protein is presented. Adenovirus type 2 hexon, at 967 residues, is now the longest polypeptide whose structure has been determined crystallographically. Taken with our model for hexon packing, which positions the 240 trimeric hexons in the capsid, the structure defines 60% of the protein within the 150 X 10(6) dalton virion. The assembly provides the first details of a DNA-containing animal virus that is 20 times larger than the spherical RNA viruses previously described. Unexpectedly, the hexon subunit contains two similar beta-barrels whose topology is identical to those of the spherical RNA viruses, but whose architectural role in adenovirus is very different. The hexon structure reveals several distinctive features related to its function as a stable protective coat, and shows that the type-specific immunological determinants are restricted to the virion surface.
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PMID:Three-dimensional structure of the adenovirus major coat protein hexon. 370 42

The EIa region of an Adenovirus 5 recombinant has been substituted by a modular gene encoding dihydrofolate reductase (DHFR). In this recombinant, the mouse DHFR cDNA was positioned behind sequences of the major late promoter and the complete tripartite leader. The leader sequences end in the normal 5' splice site (SS) of the third leader, so that RNA splicing joins the tripartite leader to a 3' splice site immediately upstream of the DHFR cDNA. At late stages of infection, high levels of DHFR mRNAs were synthesized. At early times in the late stage, this mRNA was efficiently translated; however, at later times translation of DHFR decreased probably due to poor competition with other late mRNAs. Synthesis of DHFR protein from an analogous Adenovirus 5 recombinant containing only the first late leader was studied in parallel. Equivalent levels of DHFR mRNA were expressed after infection with this recombinant virus; however, the efficiency of DHFR translation was at least 20 fold lower than that of the DHFR mRNA containing the tripartite leader. This suggests that the tripartite leader sequence is important for translation in the late stage of infection. As reported previously, the Ad5 recombinant containing only the first leader vastly overexpresses polypeptide IX from a novel mRNA, formed by the splicing of the first leader in the modular DHFR gene to the 3' splice site in the EIb region. Cells infected with this recombinant synthesize very little normal mRNA from the EIb region. Here, we demonstrated that coinfection of 293 cells with this recombinant and wild type Adenovirus 5 also results in decreased EIb mRNA synthesis. We propose that the overproduction of polypeptide IX suppresses mRNA expression from the EIb and IX promoter sites, probably by an autoregulation loop active during lytic growth.
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PMID:Effect of the tripartite leader on synthesis of a non-viral protein in an adenovirus 5 recombinant. 383 74

Adenovirus early region 1A (E1A), which gives rise to three overlapping transcripts, was inserted into a murine leukemia virus-derived vector, and recombinant viruses were used to prepare permanent cell lines of NIH 3T3 cells containing DNA copies of the individual 13S, 12S, and 9S mRNAs. Integrated proviral copies of the recombinant genomes were rescued as bacterial plasmids from each of the cell lines, and the DNA sequence of E1A was demonstrated to be a precise copy of the individual transcripts. The DNA copies were shown to be expressed as part of the full-length retroviral transcript by S1 nuclease analysis, and the synthesis of their encoded polypeptides was demonstrated by immunoprecipitation. Those cell lines expressing the polypeptide encoded by the 13S transcript were shown to contain that function required for regulating the accumulation of mRNAs from adenovirus early genes by their ability to complement the adenovirus type 5 E1A deletion mutant dl312. Cell lines expressing polypeptides encoded by the 13S, 12S, and 9S transcripts showed characteristic alterations in morphology. Two-dimensional gel electrophoresis of total cellular protein derived from the three cell lines demonstrated that each E1A gene product elicits specific alterations in the patterns of proteins expressed. Studies of the expression of two specific genes, those encoding fibronectin and collagen type 1, indicated that the observed alteration in levels of the two proteins results from a reduction in RNA levels induced by E1A functions.
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PMID:Individual adenovirus type 5 early region 1A gene products elicit distinct alterations of cellular morphology and gene expression. 405 56

Adenovirus 2-infected monkey cells fail to synthesize fiber, a 62,000 Mr virion polypeptide expressed at late times in productively infected cells. Yet these cells contain fiber mRNA that, after isolation, can be translated in vitro. The reason for the failure of monkey cells to translate fiber mRNA has been approached by microinjecting adenovirus mRNA into the cytoplasm of cultured monkey cells. Late adenovirus 2 mRNA, isolated from infected HeLa cells, was efficiently expressed when microinjected into the African green monkey kidney cell line CV-C. Expressed viral proteins identified by immunoprecipitation included the adenovirus fiber polypeptide. This result demonstrates that the monkey cell translational apparatus is capable of recognizing and expressing functional adenovirus fiber mRNA. Microinjection of late virus mRNA into cells previously infected with wild-type adenovirus 2 failed to increase significantly the yield of infectious virus.
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PMID:Translation of adenovirus 2 late mRNAs microinjected into cultured African green monkey kidney cells. 674 64

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