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

---

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

Adenovirus 40 (Ad40) is defective for growth in tissue culture but is complemented when the Ad2/5 or Ad12 E1B 55K protein is supplied in trans. Ad40 E1B mRNA has not been detected in E1-transformed cells, or at early times in lytically infected cells. In cells constitutively expressing the E1B region of Ad2, Ad40 E1B mRNAs are detected at late times in infection, after the onset of DNA replication. We have determined the Ad40 E1B transcription map from RNA produced at late times in infected KB16 cells, using S1 nuclease, primer extension, PCR-cDNA analysis, and Northern blotting. E1B transcripts corresponding to Ad2 14 S, 22 S, and 9 S mRNAs were identified but no 13 S mRNA equivalent was detected, a pattern similar to that seen in the Ad12 transcription map. The coding potential for E1B 19K, 55K, and 15K proteins and for ppIX is retained in the Ad40 transcripts. In addition we find novel E1A-E1B cotranscript counterparts of the 14 S and 22 S mRNAs. These contain the first 40 codons of the E1A first exon linked to a site 4-5 nt downstream of the E1B cap site, retaining all the coding potential of the E1B mRNAs. No new open reading frames are created by the junction, and the E1A ORF terminates with one codon added after the junction. Each E1A-E1B cotranscript is present in abundance comparable to that of its authentic E1B counterpart. The E1A-E1B junction is unusual in that it does not conform to splice consensus sequences and thus may not be generated by a conventional splicing mechanism.
...
PMID:Enteric adenovirus type 40:E1B transcription map and identification of novel E1A-E1B cotranscripts in lytically infected cells. 182 50

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.
...
PMID:Adenovirus E1B 55-Mr polypeptide facilitates timely cytoplasmic accumulation of adeno-associated virus mRNAs. 282 48

Adenovirus type 4 (Ad4) is the sole member of adenovirus group E based on overall DNA sequence homology, restriction endonuclease cleavage patterns, and the size of capsid proteins. We cloned the BamHI-F fragment from the left end of Ad4 in pUC13-1 between the SalI and BamHI sites in order to carry out the structural analysis of the E1A region of Ad4. The complete sequence of the BamHI-F fragment (2042 bp) has been determined. From the DNA sequence, the splice sites for the putative 12 S and 13 S mRNAs, encoded by the E1A region of Ad4 were deduced. If protein synthesis initiates at the first available AUG triplet (position 575), these 12 S and 13 S mRNAs would code for polypeptides containing 226 and 257 amino acids, respectively. Comparison of Ad4- and Ad7-13 S mRNA-coded polypeptides indicates that there is 57% homology, whereas the homology is only 38% with Ad12 and 31% with Ad2-13 S mRNA-coded polypeptides. The structural analysis in the E1 region of Ad4 also includes the coding region for the E1B 19-kDa protein. Ad4 and Ad7 shows 65% homology in the coding regions for E1B 19-kDa protein. Comparison of the DNA sequence of Ad4 with those of Ad2, Ad7, and Ad12 by using a dot matrix computer program and by Southern hybridization revealed that Ad4 bears a stronger homology with Ad7 than with Ad2 and Ad12 in this region. Hydropathy plots and alignments of the putative polypeptides coded by this region in Ad4 with those from the corresponding regions of different serotypes to reveal the highly conserved domains also support the above conclusion.
...
PMID:Sequence analysis in the E1 region of adenovirus type 4 DNA. 294 81

Adenovirus mutants carrying alterations in the gene encoding the E1B 19-kilodalton tumor antigen (19K protein) cause enhanced cytopathic effect (cyt phenotype) and the degradation of host-cell chromosomal DNA (deg phenotype) upon infection of human HeLa or KB cells. Furthermore, E1B 19K gene mutant viruses are defective for cellular transformation. We report that these mutant viruses possess a host-range phenotype for growth in human cells. In human HeLa cells the mutant viruses grew to the same levels as the wild-type virus, but they were severely defective for growth in KB cells. In human WI38 cells, the E1B 19K gene mutant viruses had a substantial growth advantage over the wild-type virus, yielding 500-fold-higher titers. Viral DNA synthesis was reduced 10- to 20-fold in WI38 cells infected with the wild-type virus relative to that synthesized by the E1B mutant viruses. Viral early and late protein synthesis was similarly reduced in wild type- relative to mutant-infected cells. These reduced levels of early gene expression in wild-type virus-infected cells were paralleled by comparably reduced levels of early cytoplasmic mRNA. The primary cause of this host-range phenotype appeared at the level of early gene transcription, since transcription of viral early genes in the mutant-infected cells was substantially greater than levels found in cells infected with the wild-type virus. These results implicate the E1B 19K tumor antigen in the regulation of adenovirus early gene expression. Specifically, the E1B 19K protein directly or indirectly exerts a negative effect on early gene transcription accounting for efficient gene expression from the E1B mutant viruses in WI38 cells. Based on these findings it is probable that the cyt and deg phenotypes observed in mutant-infected HeLa and KB cells are the result of the pleiotropic effect of this altered gene regulation.
...
PMID:Regulation of adenovirus gene expression in human WI38 cells by an E1B-encoded tumor antigen. 294 7

Adenovirus mutants containing genetic alterations in the gene encoding the E1B 19,000-molecular-weight (19K) tumor antigen induce the degradation of host cell chromosomal DNA (deg phenotype) and enhanced cytopathic effect (cyt phenotype) after infection of HeLa and KB cells. The deg and cyt phenotypes are a consequence of viral early gene expression in the absence of the E1B 19K protein. The role of the E1A proteins in induction of the cyt and deg phenotypes was investigated by constructing E1A-E1B double mutant viruses. Viruses were constructed to express the individual E1A 13S, 12S, or 9S cDNA genes in the presence of a mutation in the gene encoding the E1B 19K tumor antigen. Expression of either the 13S or 12S E1A proteins in the absence of functional E1B 19K protein produced the deg and cyt phenotypes. In contrast, a virus which expressed exclusively the 9S E1A gene product in the absence of the E1B 19K gene product did not induce the deg and cyt phenotypes, even at high multiplicities of infection. Therefore, both the 13S and 12S E1A gene products could directly or indirectly cause the deg and cyt phenotypes during infection of HeLa cells with an E1B 19K gene mutant virus. Furthermore, the deg phenotype was found to be host cell type specific, occurring in HeLa and KB cells but not in growth-arrested human WI38 cells. These results indicate that expression of the E1A trans-activating and transforming proteins is necessary for the induction of the cyt and deg phenotypes and that host cell factors also play a role.
...
PMID:Expression of adenovirus E1B mutant phenotypes is dependent on the host cell and on synthesis of E1A proteins. 294 88

Adenovirus E1A proteins stimulate transcription by RNA polymerases II and III from many promoters. The detailed mechanism of transcriptional activation (transactivation) by E1A proteins remains unclear, but genetic and biochemical results suggest that E1A products might act to stimulate the activity of cellular transcription factors. In this study, a detailed mutational analysis of the adenovirus E1B promoter was undertaken to define the DNA sequences required for proper basal transcription and E1A transactivation. Two key findings emerged: first the E1B promoter is an unusually simple RNA polymerase II promoter requiring only two sequence elements for proper regulation, the TATA box and a binding site for transcription factor Sp1; and second only mutations in the TATA box interfere with E1A-transactivation, suggesting that E1A mediates its effect on this promoter through the TATA-box transcription factor.
...
PMID:A TATA box implicated in E1A transcriptional activation of a simple adenovirus 2 promoter. 295 98

Human peripheral blood lymphocytes were induced to proliferate indefinitely in vitro by fusion with cytoplasts from mouse L 929 cells or, alternatively, by transfection with DNA isolated from L929 cytoplasts. Since adenoviruses epidemically infect human lymphocytes, the newly established cell lines were assayed for the presence of adenoviral DNA sequences. In 8 of 10 lymphoid cell lines of both B and T cell origin, adenovirus type 5 (serogroup C) DNA sequences were detected. The cells harbor approximately 40 to 70 genome copies per cell. Adenovirus type 5 transcripts of the E1A and E1B early regions that are responsible for the transforming capacity of adenoviruses could not be detected in the lymphoid cell lines. Therefore we conclude that the adenovirus genome persisting in immortalized lymphoid cells is not involved in the maintenance of indefinite proliferation induced by fusion with L929 cytoplasts or by DNA transfection.
...
PMID:Adenovirus type 5 persisting in human lymphocytes is unlikely to be involved in immortalization of lymphoid cells by fusion with cytoplasts or by transfection with DNA of mouse L cells. 295 95

Adenovirus E1A genes possess transcriptional activation and repression activities. Three major gene products have been characterized, derived from the 13S, 12S and 9S mRNAs. Using transient expression assays in HeLa cells, we have investigated the effect of these gene products on the activity of the nine major Ad2 (or Ad5) promoters driving the expression of a reporter gene. Based on the results, we could separate the promoters into three classes: (a) E1A, which is active by itself, and is unaffected or slightly stimulated by the E1A 13S product (depending on the HeLa cell line used); (b) the other classical early promoters (E1B, E2e, E3, E4), all of which are active alone and are stimulated by the 13S product and repressed by the 12S product; and (c) the late promoters (IX, IVa2, MLP, E2L) which are not active alone and are substantially unaffected by the 13S or 12S products. Thus the 13S and 12S gene products have antagonistic effects on at least four adenovirus promoters. The 9S product did not influence the activity of any of the adenovirus promoters. Upon transfection into 293 cells, all the early promoters were active and all the late promoters were inactive, except for the major late promoter (MLP). We demonstrate that the combination of the E1A and E1B genes is a potent activator of the MLP in HeLa cells and discuss these results in the context of the infectious cycle.
...
PMID:Response of individual adenovirus promoters to the products of the E1A gene. 296 89

Adenovirus contains two nuclear oncogenes, the EIA and EIB genes, which cooperatively can transform cells through mechanisms that are not understood. The transcriptional activities of the E1A gene (transactivation and repression) are well studied. Using transient expression assays, we show here that the 19,000-Da E1B gene product can also activate all the adenovirus early promoters (E1A, E1B, E2e, E3 and E4) and a cellular heat shock gene promoter (hsp70), but not the adenovirus late promoters (IX, IVa2, MLP and E2L). The effect is greatest under conditions where cell growth is inhibited, and appears to operate at the transcriptional level. Possible interactions with enhancer elements are discussed. Although the E1B stimulatory effect does not require the presence of E1A gene products, a synergistic effect is obtained in the presence of E1A 13S product. This activity of the E1B gene is also observed during virus infection and is likely to have important consequences in lytically infected and transformed cells.
...
PMID:Transactivation of host and viral genes by the adenovirus E1B 19K tumor antigen. 296 90

Adenovirus E1A and c-myc genes are known to be capable of transforming primary rat cells when they occur in combination with either polyoma middle-T or T24 Harvey-ras1 genes. There was a low level of amino acid sequence homology between the nuclear adenovirus-12 (Ad12)E1A protein product (289 amino acids) and the c-myc protein based on optimal alignment and percentage identity. In contrast to others [Ralston R, Bishop JM (1983) Nature 306:803-806], we concluded that this low level of amino acid sequence homology was not significant, since rabies glycoprotein (RGP), which has no transforming function and localizes to the cell surface, had a similar low level of amino acid sequence homology to the c-myc protein. Furthermore, dot-matrix analysis, when used to test the overall level of amino acid sequence homology, showed no significant homology between c-myc and Ad12E1A, E1B, or RGP. Thus, low levels of amino acid sequence homology between two proteins may not be sufficient to predict structural and functional similarities between them reliably, even if the two proteins appear to share a common function.
...
PMID:How reliable is amino acid sequence homology in predicting similarity of structure and function of c-myc and Ad12 E1A oncogenic proteins? 309 45


1 2 3 4 5 6 7 Next >>

---