UMLS:C0679427 - FACTA Search

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Query: UMLS:C0679427 (myeloblastosis)
982 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

1. The p15gag proteinase responsible for the processing of the polyprotein precursor of the myeloblastosis associated virus was obtained by a recombinant technique in an E. coli expression system. The massive expression of the intentionally truncated precursor (Pr25lac-delta gag) was accompanied by its structurally correct processing. 2. Three procedures for the purification of the recombinant proteinase from both the cytoplasmic fraction and the inclusion bodies were developed. 3. The purified proteinase was compared with the authentic proteinase isolated from MAV virions by N-terminal sequence analysis and amino acid analysis, molecular weight determination, reverse-phase HPLC and FPLC elution profiles, electrophoretic mobility and isoelectric point determination, and activity assays with proteins and synthetic substrates. The identity of both enzymes was shown. 3. Contrary to reported data, the amino acid sequence of the p15gag proteinase differs from the sequence of the homologous Rous sarcoma virus proteinase in one residue only, as follows from cDNA sequencing. 4. Crystallization of the proteinase from a citrate-phosphate buffer at pH 5.6 afforded hexagonal crystals which diffracted well as 2.3 A without deterioration.
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PMID:Isolation, biochemical characterization and crystallization of the p15gag proteinase of myeloblastosis associated virus expressed in E. coli. 173 89

Integration of retroviral DNA into the host genome requires the activity of retrovirus-encoded integration protein IN. We expressed Rous sarcoma virus (RSV) IN, 286 amino acid residues in length, by using in vitro transcription, followed by in vitro translation in rabbit reticulocyte lysate. The nucleic acid-binding activity of in vitro-translated IN was assessed by using DNA-cellulose affinity chromatography and poly(U)-Sepharose affinity chromatography and by sedimentation analysis in the presence or absence of DNA. In vitro-translated RSV IN exhibited nucleic acid-binding activity similar to that of IN purified from avian myeloblastosis virus. To identify regions of IN which bind to nucleic acids, several deletions of RSV IN were generated. The NH2-terminal 26 amino acids, including the two His residues of a His-Cys box, were not necessary for IN nucleic acid binding with any of the substrates tested. The substrates included native calf thymus DNA, poly(U), and a double-stranded linear DNA molecule with RSV long terminal repeat sequences at its termini. The COOH-terminal region (residues 178 to 286) of IN bound quantitatively (greater than 90%) to poly(U) and to single-stranded circular phi X174 DNA but did not exhibit the double-stranded linear DNA-binding ability of the entire IN molecule.
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PMID:Defining nucleic acid-binding properties of avian retrovirus integrase by deletion analysis. 184 45

The specificity of the p15 proteinase of myeloblastosis-associated virus (MAV) was tested with nonviral high molecular weight substrates and with synthetic peptides. Peptides with sequences spanning known cleavage sites in viral polyproteins of Rous sarcoma virus (RSV) and avian leukemia viruses, as well as in BSA and HSA, were synthesized, and the rate of their cleavage by the MAV proteinase was compared. Synthetic peptides require for successful cleavage at least 4 residues at the N-terminal side and 3 residues at the C-terminal side. The proteinase shows a preference for hydrophobic residues with bulky side chains (Met, Tyr, Phe) in P3, although Arg and Gln can also be accepted. Small hydrophobic residues are required in P2 and P2', and large hydrophobic residues (Tyr, Met, Phe/p-nitro-Phe) are preferred in both P1 and P1'. The difference between the specificity of the p15 proteinase and that of the HIV-1 proteinase mostly pertains to position P2' of the substrate, where bulkier side chains are accepted by the HIV-1 proteinase (Richards et al., 1990). A good chromogenic substrate for the MAV and RSV proteinases was developed and used to further characterize the MAV proteinase activity with respect to ionic strength and pH. The activity of the proteinase is strongly dependent on ionic strength and pH. Both the kcat and Km values contribute to a higher cleavage efficiency at higher salt concentrations and show a bell-shaped pH dependence curve with a sharp maximum at pH 5.5 (kcat) and 6.5 (Km).
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PMID:Specificity studies on retroviral proteinase from myeloblastosis-associated virus. 184 25

The virally encoded proteases from human immunodeficiency virus (HIV) and avian myeloblastosis virus (AMV) have been compared relative to their ability to hydrolyze a variant of the three-domain Pseudomonas exotoxin, PE66. This exotoxin derivative, missing domain I and referred to as LysPE40, is made up of a 13-kilodalton NH2-terminal translocation domain II connected by a segment of 40 amino acids to enzyme domain III of the toxin, a 23-kilodalton ADP-ribosyltransferase. HIV protease hydrolyzes two peptide bonds in LysPE40, a Leu-Leu bond in the interdomain region and a Leu-Ala bond in a nonstructured region three residues in from the NH2-terminus. Neither of these sites is cleaved by the AMV enzyme; hydrolysis occurs, instead, at an Asp-Val bond in another part of the interdomain segment and at a Leu-Thr bond in the NH2-terminal region of domain II. Synthetic peptides corresponding to these cleavage sites are hydrolyzed by the individual proteases with the same specificity displayed toward the protein substrate. Peptide substrates for one protease are neither substrates nor competitive inhibitors for the other. A potent inhibitor of HIV type 1 protease was more than 3 orders of magnitude less active toward the AMV enzyme. These results suggest that although the crystallographic models of Rous sarcoma virus protease (an enzyme nearly identical to the AMV enzyme) and HIV type 1 protease show a high degree of similarity, there exist structural differences between these retroviral proteases that are clearly reflected by their kinetic properties.
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PMID:Proteases from human immunodeficiency virus and avian myeloblastosis virus show distinct specificities in hydrolysis of multidomain protein substrates. 216 35

The matrix protein from avian myeloblastosis virus and the Rous sarcoma virus, Prague C strain, is a phosphoprotein. A comparison of the amino acid sequences shows these phosphoproteins are very similar. The sites of phosphorylation of the matrix protein purified from virions are identified as serine residues 68 and 106. Treatment with purified rabbit skeletal-muscle protein phosphatase 1 or 2A, selectively releases phosphate from serine 68, while alkali treatment releases phosphate from both sites. When analyzed as a substrate for six different protein kinases, only the Ca2+/phospholipid-dependent protein kinase modifies the matrix protein. The serine residues phosphorylated in vivo are identical to those phosphorylated in vitro by this protein kinase. The role of these phosphorylation events in viral production is discussed.
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PMID:Phosphorylation of avian retrovirus matrix protein by Ca2+/phospholipid-dependent protein kinase. 253 9

DNA-protein interactions involving enhancer and promoter sequences within the U3 regions of several avian retroviral long terminal repeats (LTRs) were studied by DNase I footprinting. The rat CCAAT/enhancer-binding protein, C/EBP, bound to all four viral LTRs examined. The Rous sarcoma virus binding site corresponded closely to the 5' limit of the LTR enhancer; nucleotides -225 to -188 were protected as a pair of adjacent binding domains. The Fujinami sarcoma virus LTR bound C/EBP at a single site at nucleotides -213 to -195. C/EBP also bound to the promoter region of the enhancerless Rous-associated virus-0 LTR at nucleotides -77 to -57. The avian myeloblastosis virus LTR bound C/EBP at three sites: nucleotides -262 to -246, -154 to -134, and -55 to -39. We have previously observed binding of C/EBP to an enhancer in the gag gene of avian retroviruses. A heat-treated nuclear extract from chicken liver bound to all of the same retroviral sequences as did C/EBP. Alignment of the avian retroviral binding sequences with the published binding sites for C/EBP in two CCAAT boxes and in the simian virus 40, polyoma, and murine sarcoma virus enhancers suggested TTGNNGCTAATG as a consensus sequence for binding of C/EBP. When two bases of this consensus sequence were altered by site-specific mutagenesis of the Rous sarcoma virus LTR, binding of the heat-stable chicken protein was eliminated.
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PMID:Avian retroviral long terminal repeats bind CCAAT/enhancer-binding protein. 272 92

The nucleocapsid protein from the Rous sarcoma virus has two regions of sequence with the motif Cys-Xaa-Xaa-Cys-Xaa-Xaa-Xaa-Gly-His-Xaa-Xaa-Xaa-Cys. All retrovirus nucleocapsid proteins contain one or two of these motifs, and they represent the only conserved sequences among these proteins. Sequence analysis of nucleocapsid from avian myeloblastosis virus shows that it also contains two Cys-His sequences and, in fact, differs from the Rous sarcoma nucleocapsid protein only in three residues near the carboxyl terminus. The hypothesized role of the conserved cysteines and histidines as zinc ligands was tested experimentally. No tightly bound metal ions were detected for avian myeloblastosis nucleocapsid protein, and the molar amount of zinc in virions was less by a factor of 50 than that of the nucleocapsid protein. Added Zn2+ did not significantly affect nucleocapsid binding to poly(ethenoadenylic acid) or its secondary structure, as determined from circular dichroism. Nevertheless, the conserved cysteine and histidine residues of the Rous sarcoma (Prague-C strain) nucleocapsid protein are essential for fully functional virus, as shown by the fact that single-site substitutions of five of the six conserved cysteines and either of the two histidine residues blocked viral replication.
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PMID:Conserved cysteine and histidine residues of the avian myeloblastosis virus nucleocapsid protein are essential for viral replication but are not "zinc-binding fingers". 284 95

We have purified two low-molecular-weight polypeptides from the Prague C strain of Rous sarcoma virus and have identified these as products of the gag precursor Pr76 by protein sequencing and by amino acid analysis. Both polypeptides are derived from a stretch of 22 amino acids within Pr76 that separates p19 and p10. We refer to this region as p2. Together the two cleavage products form the entire p2 region. The junctions of p19 with the amino-terminal fragment of p2 and of p10 with the carboxy-terminal fragment of p2 define two new processing sites within the gag precursor, Tyr-155-His-156 and Gly-177-Ser-178. Both polypeptides are major cleavage products of Pr76 that occur in Prague C Rous sarcoma virus at an estimated 1,000 copies per virion. They also are prominent components of avian myeloblastosis virus. The combination of gel filtration and reverse-phase high-pressure liquid chromatography, which was used for the isolation of the two fragments of p2, resolved over a dozen other low-molecular-weight polypeptides from avian sarcoma and leukemia viruses that previously were undetected. This technique thus should serve as a useful procedure for further characterization of viral components.
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PMID:Structure and processing of the p2 region of avian sarcoma and leukemia virus gag precursor polyproteins. 300 58

Hybridoma cell lines secreting monoclonal antibody (MCA) to avian leukosis virus (ALV) structural proteins p27 and p19 have been established. In an indirect enzyme-linked immunosorbent assay (ELISA), MCA 6AL20 (IgG1 isotype) reacted with RPL-40 (ALV subgroup A), avian myeloblastosis virus (AMV) (a mixture of subgroups A and B), Rous-associated virus (RAV)-2 (subgroup B), and Carr-Zilber strain of Rous sarcoma virus (CZ-RSV) (subgroup D) but not with Prague strain of RSV (PrC-RSV) (subgroup C) or the endogenous virus RAV-0 (subgroup E). MCA 6AL22 reacted as above and also reacted marginally with PrC-RSV. Both MCAs immunoprecipitated p19 from 35S-methionine-labeled chicken embryo fibroblasts (CEFs) infected with RPL-40 or RAV-1, but not from CEFs infected with RAV-0, thus identifying the viral structural protein p19 as a polypeptide with subgroup-specific epitopes. Both MCAs can be used to differentiate RPL-40 from RAV-0 infection either in an indirect antibody ELISA or by immunoprecipitation. A third MCA, 6AL42 (IgG2a isotype), reacted with the above viruses of subgroups A, B, C, and D at an antibody titer up to 1000-fold higher than with subgroup E RAV-0 virus in indirect ELISAs. MCA 6AL42 immunoprecipitated p27 from cells infected with RPL-40, RAV-1, or RAV-0. These MCAs are potentially useful in developing immunological tests for differentiation of ALV strains.
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PMID:Characterization of monoclonal antibodies to avian leukosis viruses. 301 99

Two different systems of dodecyl sulfate-polyacrylamide gel electrophoresis (SDS-PAGE) in separate laboratories detected analogous patterns of dye bands in virions of avian myeloblastosis virus (AMV). At least 11 of the dye bands co-migrated with the major polypeptides reported in Rous sarcoma virus. Particles with the morphology of the AMV core component, obtained after exposure of AMV to the nonionic surfactant Sterox SL, contained major polypeptides p12, p27, p60, p64, p91, and p98. The polypeptide p12 has been previously shown to be the major constituent of the inner ribonucleoprotein (RNP) of the AMV core, and has been designated p12(N). Two RNP polypeptides, p64 and p91, co-electrophoresed with purified AMV DNA polymerase and have now been designated p64(P) and p91(P). The polypeptide p27 has been identified as a probable constituent of the core shell, and has accordingly now been designated p27(C). In comparison to virions of AMV, the AMV core component contained a greatly reduced amount of polypeptide p15 and appeared to lack a major polypeptide, p19. Consequently, these polypeptides may be associated either with the exterior of the core shell or the interior of the viral envelope. Glycopeptides were not detected in AMV cores, in agreement with earlier reports that they reside in external projections from the viral envelope.
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PMID:Structural studies of avian myeloblastosis virus: comparison of polypeptides in virion and core component by dodecyl sulfate-polyacrylamide gel electrophoresis. 412 94

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