UMLS:C0021051 - FACTA Search

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

The type 1 human immunodeficiency virus Tat protein is a powerful transcriptional activator when bound to an RNA structure (TAR) present at the extreme 5' terminus of viral mRNA. Since transcriptional activation requires binding of Tat to RNA, it has been suggested that Tat enhances initiation or elongation through a direct interaction with cellular transcription factors. Here we show through protein fusion experiments that the previously identified cellular Tat binding protein, TBP-1, although unable to bind DNA, is a strong transcriptional activator when brought into proximity of several promoter elements. Transcriptional activity depends upon the integrity of at least two highly conserved domains: one resembling a nucleotide-binding motif and the other motif common to proteins with helicase activity. Our studies further reveal that TBP-1 represents one member of a large, highly conserved gene family that encodes proteins demonstrating strong amino acid conservation across species. Finally, we identified a second family member that, although 77% similar to TBP-1, does not activate transcription from the promoters examined. This finding, together with the observation that TBP-1 does not activate each promoter examined, suggests that this gene family may encode promoter-specific transcriptional activators.
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PMID:The type 1 human immunodeficiency virus Tat binding protein is a transcriptional activator belonging to an additional family of evolutionarily conserved genes. 841 15

We previously used gel shift assays, Southwestern blots, and UV cross-linking to identify four proteins that bind to the 203-bp 5'-flanking region (-194/ +9) of the rabbit uteroglobin gene. Here we report cloning, by recognition site screening, the cDNAs for two of the uteroglobin promoter-binding proteins (95 kDa and 113 kDa). Their presumptive nucleotide-binding motifs share 61% identity with the SWI2/SNF2 helicase superfamily, and each protein has the novel C3HC4 (RING) zinc-finger signature near its C terminus. RUSH-1 alpha, the 113-kDa protein, is the rabbit homolog of human HIP116, a protein that binds to the human immunodeficiency virus-1 promoter. RUSH-1 beta is a 95-kDa truncated version of RUSH-1 alpha that results from alternative splicing of a 57-bp exon as confirmed by genomic cloning. Northern analysis showed mRNA expression (5.2 kb) was induced by progesterone +/- PRL and antagonized by estrogen. However, because the two proteins result from alternative splicing of a 57-bp exon, the small difference in their mRNA sizes could not be detected by Northern analysis. Therefore, competitive RT-PCR and HPLC were used to quantify differences in the ratios of their mRNAs. Progesterone +/- PRL treatment increased (P < 0.005) the ratio of message for RUSH-1 alpha compared with RUSH-1 beta. Western analysis showed the RUSH-1 alpha protein is increased in response to progesterone +/- PRL and decreased in response to estrogen. The antiserum used for immunoblotting specifically supershifts uteroglobin promoter-protein complexes in gel shift experiments. Because RUSH-1 alpha and beta messages were detected in lung, liver, and HRE-H9 cells, these proteins may regulate genes in numerous cell types.
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PMID:Cloning, characterization, and steroid-dependent posttranscriptional processing of RUSH-1 alpha and beta, two uteroglobin promoter-binding proteins. 892 60

Hepatitis B virus(HBV), hepatitis C virus(HCV), and human immunodeficiency virus(HIV) infections are common among intravenous drug abusers, with a global distribution. The recently discovered hepatitis GB virus C(HGBV-C)/hepatitis G virus(HGV) has been linked to blood-borne non-A-E hepatitis. HGBV-C RNA was determined by the polymerase chain reaction with primers deduced from a helicase-like region in 189 patients with type C chronic liver diseases. Overall, HGBV-C RNA was detected in 22(11.6%) patients. The prevalence of HGBV-C RNA was estimated according to the suspected transmission routes(blood transfusion, intravenous drug abuse, tattooing and unknown) of HCV. 22.7-25.0% of type C hepatitis patients with a history of intravenous drug abuse were positive for HGBV-C RNA. These results indicate that HGBV-C is transmitted frequently in intravenous drug abusers coinfected with HCV.
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PMID:[Infection with hepatitis GB virus C in intravenous drug abusers with type C chronic liver diseases]. 908 56

Bloom's syndrome (BS) is an autosomal recessive condition characterized by short stature, immunodeficiency, and a greatly elevated frequency of many types of cancer. The gene mutated in BS, BLM, encodes a protein containing seven "signature" motifs conserved in a wide range of DNA and RNA helicases. BLM is most closely related to the subfamily of DEXH box-containing DNA helicases of which the prototypical member is Escherichia coli RecQ. To analyze its biochemical properties, we have overexpressed an oligohistidine-tagged version of the BLM gene product in Saccharomyces cerevisiae and purified the protein to apparent homogeneity using nickel chelate affinity chromatography. The recombinant BLM protein possesses an ATPase activity that is strongly stimulated by either single- or double-stranded DNA. Moreover, BLM exhibits ATP- and Mg2+-dependent DNA helicase activity that displays 3'-5' directionality. Because many of the mutations in BS individuals are predicted to truncate the BLM protein and thus eliminate the "helicase" motifs or map to conserved positions within these motifs, our data strongly suggest that these mutations will disable the 3'-5' helicase function of the BLM protein.
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PMID:The Bloom's syndrome gene product is a 3'-5' DNA helicase. 938 93

Bloom syndrome (BS) is a rare genetic disorder characterized by small body size, sun sensitivity, immunodeficiency and a high predisposition to various types of cancer. BLM was identified as the causative gene for BS, and BLM protein is homologous to DNA helicase. There are two putative nuclear localization signals (NLSs) within amino acid residues 1334-1349 in the C-terminus of the BLM protein, which has the distinctive structure of two basic residue arms separated by a spacer. The entire coding or deleted BLM sequences of various sizes were ligated into an enhanced green fluorescent protein (EGFP) vector and transfected into HeLa cells. The EGFP vector harboring the entire BLM coding sequence was transported to the nucleus. The BLM protein truncated at 1341 amino acid, containing an intact helicase domain and only one proximal arm, was not transported to the nucleus. The BLM protein truncated at 1357 amino acid, containing an intact helicase domain and two arms, was transported to the nucleus. The EGFP vector harboring DNA fragments encoding a protein having only the distal arms of basic amino acids in the C-terminus was also transported to the nucleus. The truncated BLM proteins corresponding to previously reported mutated BLM proteins were retained in the cytoplasm or both the cytoplasm and the nucleus as was the EGFP vector with no insert. These results show that the BLM protein translocates into the nucleus and that the distal arm of the bipartite basic residues in the C-terminus of the BLM protein is essential for targeting the nucleus.
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PMID:BLM (the causative gene of Bloom syndrome) protein translocation into the nucleus by a nuclear localization signal. 938 80

Immunoglobulin gene somatic mutation leads to antibody affinity maturation through the introduction of multiple point mutations in the antigen binding site. No genes have as yet been identified that participate in this process. Bloom's syndrome (BS) is a chromosomal breakage disorder with a mutator phenotype. Most affected individuals exhibit an immunodeficiency of undetermined aetiology. The gene for this disorder, BLM, has recently been identified as a DNA helicase. If this gene were to play a role in immunoglobulin mutation, then people with BS may lack normally mutated antibodies. Since germ-line, non-mutated immunoglobulin genes generally produce low affinity antibodies, impaired helicase activity might be manifested as the immunodeficiency found in BS. Therefore, we asked whether BLM is specifically involved in immunoglobulin hypermutation. Sequences of immunoglobulin variable (V) regions were analysed from small unsorted blood samples obtained from BS individuals and compared with germ-line sequences. BS V regions displayed the normal distribution of mutations, indicating that the defect in BS is not related to the mechanism of somatic mutation. These data strongly argue against BLM being involved in this process. The genetic approach to identifying the genes involved in immunoglobulin mutation will require further studies of DNA repair- and immunodeficient individuals.
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PMID:Somatic hypermutation of immunoglobulin genes is independent of the Bloom's syndrome DNA helicase. 964 87

Two new human DNA helicase genes, RecQ4 and RecQ5, that belong to the RecQ helicase family were cloned and characterized. The addition of these genes increases the total to five helicase genes in the human RecQ family, which includes helicases involved in Bloom and Werner syndromes, the genetic diseases manifesting the distinctive but overlapping clinical phenotypes of immunodeficiency, premature aging, and an enhanced risk of cancer. The RecQ4 helicase is as large as the Bloom (BLM) and Werner (WRN) helicases, and its gene expression profile is organ-specific, resembling that of BLM helicase. In contrast, the RecQ5 helicase has a low molecular weight, similar to the human progenitor RecQ1 helicase, and is expressed in all the organs examined. All five human helicase genes are expressed in cultured K562 leukemia and fibroblast cells. Synchronized K562 cell cultures showed that the genes RecQ4 and BLM, and RecQ1 and WRN, seem to be upregulated at the G1/S and G2/M phases, respectively, of the cell cycle. The biological significance of multiple species of human RecQ helicases, which are apparently nonessential for life but may be related to distinct diseases, is discussed in light of the fact that unicellular organisms, like Escherichia coli and yeast, contain only one species of helicase of this particular family.
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PMID:Cloning of two new human helicase genes of the RecQ family: biological significance of multiple species in higher eukaryotes. 987 47

Bloom's syndrome (BS) is a rare autosomal recessive disorder of humans characterized by severe pre- and postnatal growth deficiency, immunodeficiency, genomic instability, and a predisposition to a wide variety of neoplasms. The genomic instability is evidenced in BS somatic cells as a high incidence of gaps and breaks, chromatid exchanges, chromosome rearrangements, and locus-specific mutations. BS arises from a mutation in BLM, a gene encoding a protein with homology to the RecQ helicase family. Men with BS are sterile; women have reduced fertility and a shortened reproductive span. The current immunocytological study on mouse spermatocytes shows that the BLM protein is first evident as discrete foci along the synaptonemal complexes (SCs) of homologously synapsed autosomal bivalents in late zygonema of meiotic prophase. BLM foci progressively dissociate from the synapsed autosomal axes during early pachynema and are no longer seen in mid-pachynema. BLM colocalizes with the single-stranded DNA binding replication protein A, which has been shown to be involved in meiotic synapsis. However, there is a temporal delay in the appearance of BLM protein along the SCs relative to replication protein A, suggesting that BLM is required for a late step in processing of a subset of genomic DNA involved in establishment of interhomologue interactions in early meiotic prophase. In late pachynema and into diplonema, BLM is more dispersed in the nucleoplasm, especially over the chromatin most intimately associated with the SCs, suggesting a possible involvement of BLM in resolution of interlocks in preparation for homologous chromosome disjunction during anaphase I.
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PMID:Bloom's syndrome protein, BLM, colocalizes with replication protein A in meiotic prophase nuclei of mammalian spermatocytes. 1031 34

Bloom's syndrome (BS) is a recessive human genetic disorder characterized by short stature, immunodeficiency and elevated risk of malignancy. BS cells have genomic instability and an increased frequency of sister chromatid exchange. The gene mutated in BS, BLM, encodes a 3'-5' helicase (BLM) with homology to bacterial recombination factor, RecQ. Human males homozygous for BLM mutations are infertile and heterozygous individuals display increased frequencies of structural chromosome abnormalities in their spermatozoa. Also, mutations in the Saccharomyces cerevisiae homolog of BLM, Sgs1, cause a delay in meiotic nuclear division and a reduction in spore viability. These observations suggest that BLM may play a role during meiosis. Our antibodies raised against the C terminus of the human protein specifically recognize both mouse and human BLM in western blots of cell lines and in successive developmental stages of spermatocytes, but fail to detect BLM protein in a cell line with a C-terminally truncated protein. BLM protein expression and location are detected by immunofluorescence and immunoelectron microscopy as discrete foci that are sparsely present on early meiotic prophase chromosome cores, later found abundantly on synapsed cores, frequently in combination with the recombinases RAD51 and DMC1, and eventually as pure BLM foci. The colocalization of RAD51/DMC1 with BLM and the statistically significant excess of BLM signals in the synapsed pseudoautosomal region of the X-Y chromosomes, which is a recombinational hot spot, provide indications that BLM protein may function in the meiotic recombination process.
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PMID:Expression and nuclear localization of BLM, a chromosome stability protein mutated in Bloom's syndrome, suggest a role in recombination during meiotic prophase. 1065 59

The constitutive transport element (CTE) of type D retroviruses mediates the nuclear export of unspliced viral transcripts. We previously showed that RNA helicase A functionally interacts with CTE and contains a bidirectional nuclear transport domain at the carboxyl terminus. Here we report the identification of a novel human protein, helicase A-binding protein 95 (HAP95), which specifically binds to the carboxyl terminus of RNA helicase A. HAP95 is partially homologous to AKAP95, a member of the A kinase-anchoring protein family, but lacks the protein kinase A binding domain characteristic of this family. HAP95 is a nuclear protein at steady state but shuttles between the nucleus and cytoplasm. Overexpression of HAP95 significantly increases CTE-dependent gene expression but has no effect on general gene expression or that mediated by the Rev/Rev response element of human immunodeficiency virus type 1.
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PMID:A novel shuttle protein binds to RNA helicase A and activates the retroviral constitutive transport element. 1074 71

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