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

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Query: UMLS:C0021051 (immunodeficiency)
71,517 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

We examined the biological properties of two infectious clones of a simian immunodeficiency virus, SIVMND, which were designated as pMD121 and pMD122. Upon transfection into CD4-negative cells, pMD122 generated virions much less efficiently than pMD121. Likewise, the growth kinetics in CD4-positive cells of virus derived from pMD122 were remarkably delayed relative to those of virus from pMD121. The cytocidal activity of the MD122 virus was also low. A series of recombinant clones were constructed from pMD121 and pMD122 to determine the sequence responsible for the low virulence of the MD122 virus. The genetic determinant in pMD122 responsible for its properties was mapped to within a region (316 base pairs) encompassing the tat, rev, and env coding sequences. Sequence analysis revealed that the two clones differed by only one nucleotide in this region. A nucleotide substitution G (pMD121) to T (pMD122) altered an arginine codon to a serine codon in the first tat coding exon. Transient transfection experiments showed that the tat activity of pMD122 was about twofold less than that of pMD121. These findings indicate that small differences in tat activity can have a dramatic effect on the biological behavior of SIVMND.
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PMID:Functional analysis of biologically distinct genetic variants of simian immunodeficiency virus isolated from a mandrill. 160 7

The v- and c-Rel oncoproteins bind to oligonucleotides containing kappa B motifs, form heterodimers with other members of the Rel family, and modulate expression of genes linked to kappa B motifs. Here, we report that the RxxRxRxxC motif conserved in all Rel/kappa B family proteins is absolutely required for v-Rel protein-DNA contact and its resulting transforming activity. We also demonstrate that serine substitution of the cysteine residue conserved within this motif enables v-Rel to escape redox control, thereby promoting overall DNA binding. These mutant proteins retained the ability to competitively inhibit kappa B-mediated transcriptional activation of the human immunodeficiency virus long terminal repeat but failed to efficiently transform chicken lymphoid cells both in vitro and in vivo. Our data indicate that reduction of the conserved cysteine residue in the RxxRxRxxC motif may be required for optimal DNA-protein interactions. These results provide direct biochemical evidence that the DNA-binding activity of v-Rel is subject to redox control and that the conserved cysteine residue in the RxxRxRxxC motif is critical for this regulation. These studies suggest that the DNA-binding, transcriptional, and biological activities of Rel family proteins may also be subject to redox control in vivo.
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PMID:The RxxRxRxxC motif conserved in all Rel/kappa B proteins is essential for the DNA-binding activity and redox regulation of the v-Rel oncoprotein. 162 Jan 18

The studies presented here define an internally consistent experimental system that permits systematic analysis of the effect of nef on the rate of the human immunodeficiency virus type 1 (HIV-1) replication in a CD4+ tumor T-cell line and in primary peripheral blood mononuclear cells. The parental full-length Nef protein, derived from the Eli strain of HIV-1, accelerates virus replication in both cell types. Mutations that destabilize or alter the intracellular location of the protein affect the ability of the Nef protein to accelerate virus replication. A set of mutants was made in amino acids proposed to be required for Nef function, including threonine and serine residues proposed to be targets for phosphorylation, and in sequences thought to resemble the G-1, G-3, and G-4 sites of the family of G proteins. In most cases alterations of the critical amino acids yield stable Nef proteins of parental phenotype. These results challenge the existing theories for the mechanism of Nef function. The results also identify two residues in the carboxyl half of the protein that are important for Nef function.
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PMID:Mutational analysis of the human immunodeficiency virus type 1 Eli Nef function. 163 Nov 66

Before integration of the human immunodeficiency virus (HIV) DNA, two nucleotides are removed from the 3' ends of the viral DNA by the integrase (IN) protein. We studied the chemistry of this reaction, and found that IN mediates site-specific hydrolysis of a phosphodiester bond, resulting in release of a dinucleotide. A class of alcohols (including glycerol, 1,2-propanediol, but not 1,3-propanediol) can also act as nucleophile in this reaction, and likewise the alcoholic amino acids L-serine and L-threonine can be covalently linked to the dinucleotide. No evidence was found for a covalent linkage between the IN protein and this dinucleotide, suggesting that IN directs a single nucleophilic attack of water at the specific phosphodiester bond.
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PMID:Site-specific hydrolysis and alcoholysis of human immunodeficiency virus DNA termini mediated by the viral integrase protein. 166 61

The (K15R M52E) aprotinin is a recombinant molecule with a broader inhibition spectrum against serine proteinases and a higher affinity towards certain proteinases as compared to native aprotinin. This aprotinin variant was produced in E. coli, isolated and purified to homogeneity. The inhibitor was further tested for its effectiveness to reduce human immunodeficiency virus type 1 (HIV-1) replication. Virus growth was followed by an ELISA which detects the amount of virus core protein p24. At a concentration of 50 microM, the recombinant (K15R M52E) aprotinin clearly reduced HIV-1 replication in H9 cells.
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PMID:(K15R M52E) aprotinin is a weak Kunitz-type inhibitor of HIV-1 replication in H9 cells. 172 6

We have isolated a variant of human immunodeficiency virus type 1 (HIV-1) which is highly infectious to fibroblastlike cells (BT cells) derived from human brain as well as CD4-positive T cells. This variant HIV-1, named HIV[GUN-1V], was obtained by infecting BT cells with a prototype HIV-1 isolate, named HIV[GUN-1WT], which is highly infectious to T cells but barely infectious to BT cells. HIV[GUN-1V] infects BT cells productively and this infection appeared to be mediated by CD4. To elucidate the viral gene responsible for the host range difference between the variant and prototype HIV-1s, we cloned and analyzed the provirus genomes of the two viruses. Examination of the infectivities of BT cells by various recombinant viruses and analyses of the nucleotide sequences of HIV[GUN-1V] and HIV[GUN-1WT] showed that a single nucleotide exchange was responsible for their difference in infectivity of BT cells: HIV[GUN-1V] contains a thymine residue instead of the cytosine residue in HIV[GUN-1WT] at position 931 of the env coding sequence. Replacement of cytosine by thymine at this position of the env coding sequence of the HIV[GUN-1WT] genome induced the ability to infect BT cells. The base exchange at this position was expected to change amino acid 311 of the envelope glycoprotein, gp120, from proline to serine, which is located in a variable region containing type-specific immunodominant epitopes. Thus, HIV[GUN-1V] acquired a wider host range than HIV[GUN-1WT] by a single point mutation in the env gene.
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PMID:Host range mutant of human immunodeficiency virus type 1: modification of cell tropism by a single point mutation at the neutralization epitope in the env gene. 200 39

Infection of Molt-3 cells with human immunodeficiency virus-1 (HIV-1) was found to cause a rapid increase in extractable poly(A) polymerase activity, while the activity of poly(A) degrading endoribonuclease IV strongly decreased at the same time. The increase in poly(A) polymerase activity seems not to be due to a change in the actual number of enzyme molecules, but rather to posttranslational enzyme modification, most likely caused by phosphorylation by nuclear protein kinase NI or protein kinase C. Both kinases were found to be able to phosphorylate poly(A) polymerase in vitro [homogeneous enzyme as well as poly(A) polymerase in intact nuclei]. Phosphoamino acid analysis revealed an incorporation of phosphate into serine and, to a lower extent, into threonine residues of the enzyme protein; no phosphotyrosine could be detected. In the nucleus, the poly(A) polymerase and the endoribonuclease IV are bound to the nuclear matrix. The phosphorylation related enhancement of nuclear poly(A) polymerase activity could be abolished by addition of the zinc and copper chelator o-phenanthroline, which inhibited zinc-containing purified poly(A) polymerase and destroyed the poly(A) polymerase containing nuclear matrix structure, resulting in a solubilization of the enzyme.
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PMID:Dramatic increase in poly(A) synthesis after infection of Molt-3 cells with HIV. 234 76

The human immunodeficiency virus Rev protein is posttranslationally modified by a serine kinase activity present in the nucleus of the cell. Site-directed mutagenesis was used to identify the site of phosphorylation. Changing of serine residues 92 and 99 dramatically reduced Rev phosphorylation, suggesting that at least one, if not both, of these residues is the one recognized by the Rev-specific serine kinase. Similarly, a truncated Rev protein lacking the 25 carboxy-terminal amino acids was not phosphorylated. By using two independent assays, both the serine mutant proteins and the truncated form of Rev were found to be fully functional. Thus, phosphorylation and the 25 carboxy-terminal amino acids appear to be dispensable for protein function.
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PMID:Functional significance of phosphorylation to the human immunodeficiency virus Rev protein. 255 Jun 74

A DNA fragment encoding the CD4-binding region of human immunodeficiency virus type 1 (HIV) gp 120 was excised from an SV40-based expression vector containing gp 160, and subcloned into phage M13 for site-directed mutagenesis. Mutant vectors were constructed and CV-1 cells were transfected with constructs, where Cys402 was substituted for a serine, and metabolically labelled with [3H]-N-acetylglucosamine (GlcN). Radioimmunoprecipitation with an hyperimmunserum, specific for gp 120/gp 160, and subsequent SDS-polyacrylamide gel electrophoresis demonstrated presence of gp 160, whereas gp 120 was replaced by [3H]-GlcN-labelled material, migrating as a diffuse band corresponding to 80-105k, suggesting increased sensitivity of mutant env gene products to proteolysis after cleavage to gp 120. Wild type gp 120 and gp 160 bound to CD4, whereas neither gp 160 nor gp 120 from mutant-transfected cell lysates did bind to CD4. Altogether the results indicated that Cys402, probably by participating in a disulfide bridge, is essential for (i) the CD4-binding ability of env gene products and for (ii) the physical stability of gp 120.
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PMID:Cystein 402 of HIV gp 120 is essential for CD4-binding and resistance of gp 120 to intracellular degradation. 255 37

The human Immunodeficiency virus rev protein is one of several key regulatory proteins involved in the control of viral structural protein synthesis and replication. In this report, we identify the 20-kDa rev protein as a nuclear phosphoprotein. Post-translational modification was observed solely on serine residues. In vitro kinase reactions utilizing a derivative of Rev purified from Escherichia coli identified a nuclear kinase capable of phosphorylating exogenously added rev protein. Our results suggest that the nuclear kinase activity observed in vitro is likely to be responsible for the in vivo post-translational modification of Rev.
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PMID:The human immunodeficiency virus rev protein is a nuclear phosphoprotein. 274 43


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