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: EC:3.6.1.3 (ATPase)
65,361 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

A full-length cDNA encoding a 113-kDa transcription factor, named P113, was cloned from mouse preadipocyte line 30A5. P113 binds to a 7-bp consensus TNF-response element and a 30-bp fragment from mouse PAI-1 promoter (-88/-59). Sequence analysis indicates that the P113 is highly homologous to HIP116/HLTF (human) and RUSH-1alpha (rabbit). The sequence homology and the fact that P113 contains seven motifs conserved in many DNA-dependent helicases/ATPases indicate that it is a new member of the SNF2/SWI2 protein family. A cysteine-rich motif, called RING finger, was found close to the C-terminus of P113. The expression pattern of P113 mRNA in rat tissues is significantly different from that of HLTF in human tissues. Affinity-purified P113 has an ATPase activity that is activated by DNA in a sequence-specific manner. Using Northern blot analysis and the PAI-1 promoter/luciferase system, we demonstrated that P113 is a transcription factor that activates the transcription of the PAI-1 gene in 30A5 cells.
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PMID:Molecular cloning and characterization of P113, a mouse SNF2/SWI2-related transcription factor. 942 42

The SNF2/SWI2 ATPase/helicase family comprises proteins from a variety of species, which serve a number of functions, such as transcriptional regulation, maintenance of chromosome stability during mitosis, and various types of DNA repair. Several proteins with unknown functions are also included in this family. The number of genes that belong to this family is rapidly expanding, which makes it easier to analyze the common biological functions of the family members. This study was designed to clone the SNF2/SWI2 helicase-related genes from the fission yeast Schizosaccharomyces pombe in the hope that this would help to elucidate the common functions of the proteins in this family. The hrp1+ (helicase-related gene from S. pombe) gene was initially cloned by PCR amplification using degenerate primers based on conserved SNF2 motifs within the ERCC6 gene, which encodes a protein involved in DNA excision repair. The hrp1+ ORF codes for an 1373-amino acid polypeptide with a molecular mass of 159 kDa. Like other SNF2/SWI2 family proteins, the deduced amino acid sequence of Hrp1 contains DNA-dependent ATPase/7 helicase domains, as well as a chromodomain and a DNA-binding domain. This configuration is similar to that of mCHD1 (mouse chromo-ATPase/helicase-DNA-binding protein 1), suggesting that Hrp1 is a S. pombe homolog of mCHD1, which is thought to function in altering the chromatin structure to facilitate gene expression. Northern blot analysis showed that the hrp1+ gene produces a 4.6-kb transcript, which reaches its maximal level just before the cells enter the exponential growth phase, and then decreases gradually. DNA-damaging agents, such as MMS, MNNG and UV, decrease the rate of transcription of hrp1+. Deletion of the hrp1+ gene resulted in accelerated cell growth. On the other hand, overexpression of Hrp1 caused a reduction in growth rate. These results indicate that hrp1+ may act as a negative regulator of cellular growth.
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PMID:Isolation and characterization of hrp1+, a new member of the SNF2/SWI2 gene family from the fission yeast Schizosaccharomyces pombe. 952 Feb 66

Cockayne syndrome (CS) is a nucleotide excision repair disorder characterized by sun (UV) sensitivity and severe developmental problems. Two genes have been shown to be involved: CSA and CSB. Both proteins play an essential role in preferential repair of transcription-blocking lesions from active genes. In this study we report the purification and characterization of baculovirus-produced HA-His6-tagged CSB protein (dtCSB), using a highly efficient three-step purification protocol. Microinjection of dtCSB protein in CS-B fibroblasts shows that it is biologically functional in vivo. dtCSB exhibits DNA-dependent ATPase activity, stimulated by naked as well as nucleosomal DNA. Using structurally defined DNA oligonucleotides, we show that double-stranded DNA and double-stranded DNA with partial single-stranded character but not true single-stranded DNA act as efficient cofactors for CSB ATPase activity. Using a variety of substrates, no overt DNA unwinding by dtCSB could be detected, as found with other SNF2/SWI2 family proteins. By site-directed mutagenesis the invariant lysine residue in the NTP-binding motif of CSB was substituted with a physicochemically related arginine. As expected, this mutation abolished ATPase activity. Surprisingly, the mutant protein was nevertheless able to partially rescue the defect in recovery of RNA synthesis after UV upon microinjection in CS-B fibroblasts. These results indicate that integrity of the conserved nucleotide-binding domain is important for the in vivo function of CSB but that also other properties independent from ATP hydrolysis may contribute to CSB biological functions.
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PMID:Biochemical and biological characterization of wild-type and ATPase-deficient Cockayne syndrome B repair protein. 956 9

During the development of purification procedures for Escherichia coli RNA polymerase (RNAP), we noticed the consistent co-purification of a 110-kDa polypeptide. Here, we report the identification of the 110-kDa protein as the product of the hepA gene, a member of the SNF2 family of putative helicases. We have cloned the hepA gene and overexpressed and purified the HepA protein. We show in vitro that RNAP preparations have an ATPase activity only in the presence of HepA and that HepA binds core RNAP competitively with the promoter specificity sigma70 subunit with a 1:1 stoichiometry and a dissociation constant (Kd) of 75 nM. An E. coli strain with a disruption in the hepA gene shows sensitivity to ultraviolet light.
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PMID:Disruption of Escherichia coli hepA, an RNA polymerase-associated protein, causes UV sensitivity. 961 28

We have isolated a novel cDNA encoding a peptide with 86% sequence homology to hSNF2L protein, a previously isolated human homologue of Drosophila ISWI. This gene, designated SMARCA5, contained an open reading frame of 3,156 nucleotides encoding a 1,052 amino-acid peptide (hSNF2H). As this product also revealed a significant (73%) identity in amino acid sequence to ISWI, a key component of chromatin-remodeling factors in Drosophila, hSNF2H may be another human homologue of this protein and, as such, could be involved in chromatin remodeling in humans. An ATPase domain characteristic of the SWI2/SNF2 family of proteins was highly conserved in ISWI, hSNF2L, and hSNF2H. Northern-blot analysis demonstrated ubiquitous expression of 5.1-kb and 4.1-kb transcripts of the hSNF2H gene. This gene was mapped by FISH to chromosome bands 4q31.1-->q31.2.
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PMID:Cloning and mapping of SMARCA5 encoding hSNF2H, a novel human homologue of Drosophila ISWI. 973 Jun

We obtained protein sequence information from Drosophila factor 2, an ATP-dependent RNA polymerase II transcription termination factor, and discovered that it was identical to a SWI2/SNF2 family member called lodestar. Portions of putative human and Caenorhabditis elegans homologues were found in the sequence data bases and a complete cDNA for the human factor was generated using polymerase chain reaction techniques. Recombinant human factor 2 was produced in a baculovirus expression system, purified, and characterized. Similar to the authentic Drosophila factor, the human factor displayed a strong double-stranded DNA-dependent ATPase activity that was inhibited by single-stranded DNA and exhibited RNA polymerase II termination activity. Both factors were able to work on elongation complexes from either species. We discuss the mechanism of termination by factor 2 and the implications for the role of factor 2 in cellular activities.
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PMID:A human RNA polymerase II transcription termination factor is a SWI2/SNF2 family member. 974 14

The Drosophila nucleosome remodeling factor (NURF) is a protein complex consisting of four polypeptides that facilitates the perturbation of chromatin structure in vitro in an ATP-dependent manner. The 140-kD NURF subunit, imitation switch (ISWI), is related to the SWI2/SNF2 ATPase. Another subunit, NURF-55, is a 55-kD WD repeat protein homologous to the human retinoblastoma-associated protein RbAp48. Here, we report the cloning and characterization of the smallest (38 kD) component of NURF. NURF-38 is strikingly homologous to known inorganic pyrophosphatases. Both recombinant NURF-38 alone and the purified NURF complex are shown to have inorganic pyrophosphatase activity. Inhibition of the pyrophosphatase activity of NURF with sodium fluoride has no significant effect on chromatin remodeling, indicating that these two activities may be biochemically uncoupled. Our results suggest that NURF-38 may serve a structural or regulatory role in the complex. Alternatively, because accumulation of unhydrolyzed pyrophosphate during nucleotide incorporation inhibits polymerization, NURF may also have been adapted to deliver pyrophosphatase to chromatin to assist in replication or transcription by efficient removal of the inhibitory metabolite.
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PMID:Inorganic pyrophosphatase is a component of the Drosophila nucleosome remodeling factor complex. 978 95

The compaction of the eukaryotic genome into a highly folded chromatin structure necessitates cellular mechanisms for allowing access of regulatory proteins to the DNA template. Recent advances in the fields of gene silencing, transcription, recombination, and DNA repair have led to the identification of two distinct families of chromatin remodeling enzymes--nuclear histone acetyltransferases and multisubunit complexes that harbor a SWI2/SNF2 ATPase family member. This paper reviews the current notion of how these enzymes function in remodeling chromatin; we then discuss some tantalizing lines of evidence that lead to the hypothesis that members of both families may actually function in concert to facilitate cellular processes in the context of chromatin.
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PMID:Chromatin remodeling: a marriage between two families? 981 66

Chromatin organization plays a key role in the regulation of gene expression. The evolutionarily conserved SWI/SNF complex is one of several multiprotein complexes that activate transcription by remodelling chromatin in an ATP-dependent manner. SWI2/SNF2 is an ATPase whose homologues, BRG1 and hBRM, mediate cell-cycle arrest; the SNF5 homologue, INI1/hSNF5, appears to be a tumour suppressor. A search for INI1-interacting proteins using the two-hybrid system led to the isolation of c-MYC, a transactivator. The c-MYC-INI1 interaction was observed both in vitro and in vivo. The c-MYC basic helix-loop-helix (bHLH) and leucine zipper (Zip) domains and the INI1 repeat 1 (Rpt1) region were required for this interaction. c-MYC-mediated transactivation was inhibited by a deletion fragment of INI1 and the ATPase mutant of BRG1/hSNF2 in a dominant-negative manner contingent upon the presence of the c-MYC bHLH-Zip domain. Our results suggest that the SWI/SNF complex is necessary for c-MYC-mediated transactivation and that the c-MYC-INI1 interaction helps recruit the complex.
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PMID:c-MYC interacts with INI1/hSNF5 and requires the SWI/SNF complex for transactivation function. 1031 72

Structural genes of phospholipid biosynthesis in the yeast Saccharomyces cerevisiae are activated by the Ino2p/Ino4p transcription factor that binds to ICRE promoter motifs and mediates maximal gene expression in the absence of inositol. We identified the ino80 mutation causing inositol auxotrophy as a result of a defect in ICRE-dependent gene activation. The product of the corresponding wild-type gene INO80 (= YGL150C) shows significant similarity to the Snf2p family of DNA-dependent ATPases. Nevertheless, SNF2 in increased gene dosage did not suppress ino80 mutant phenotypes. Mutation of the Ino80p lysine residue corresponding to the NTP binding site of Snf2p led to a non-functional protein. In ino80 null mutants, gene activation mediated by an ICRE decreased to 16% of the wild-type level. Maximal expression of PHO5, GAL1, CYC1 and ICL1 was also significantly reduced. Thus, Ino80p affects several transcription factors involved in unrelated pathways. As demonstrated by gel filtration, Ino80p is part of a high-molecular-weight complex of more than 1 MDa. Similar to what was found for Snf2p, the Ino80p-containing complex may influence the transcriptional level of several unrelated structural genes by functioning as an ATPase that possibly acts on chromatin.
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PMID:The product of the SNF2/SWI2 paralogue INO80 of Saccharomyces cerevisiae required for efficient expression of various yeast structural genes is part of a high-molecular-weight protein complex. 1036 Dec 78


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