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)

PAS genes are required for peroxisome biogenesis in the yeast S. cerevisiae. Here we describe the cloning, sequencing, and characterization of the PAS1 gene. Its gene product, Pas1p, has been identified as a rather hydrophilic 117 kd polypeptide. The predicted Pas1p sequence contains two putative ATP-binding sites and reveals a structural relationship to three other groups of proteins associated with different biological processes such as vesicle-mediated protein transport (NSF and Sec18p), control of cell cycle (Cdc48p, VCP, and p97-ATPase), and modulation of gene expression of the human immunodeficiency virus (TBP-1). The proteins share a highly conserved domain of about 185 amino acids including a consensus sequence for ATP binding. We suggest that these proteins are members of a novel family of putative ATPases and may be descendants of one common ancestor.
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PMID:PAS1, a yeast gene required for peroxisome biogenesis, encodes a member of a novel family of putative ATPases. 182 27

cDNA clones of a tomato protein, called Lycopersicum esculentum putative Mg(2+)-dependent ATPase (LeMA-1), were isolated from a cDNA library. Sequence comparison of the tomato protein with other genes in the database revealed that the protein is highly homologous to a human protein called TBP-1 and a yeast Tat-binding-analogue protein YTA1A. All three proteins belong to the recently discovered protein family of putative Mg(2+)-dependent ATPases and form within this family a subgroup of proteins involved in controlled protein degradation and possibly also in transcriptional regulation. Expression of the mRNA of LeMA-1 could be monitored in several plant tissues. LeMA-1 is the first member of this subgroup of proteins isolated from plants.
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PMID:Structure and expression of LeMA-1, a tomato protein belonging to the SEC18-PAS1-CDC48-TBP-1 protein family of putative Mg(2+)-dependent ATPases. 776 93

A gene from Saccharomyces cerevisiae was sequenced that encodes a protein with homology to a family of putative ATPases. These homologous proteins include the yeast cell division cycle protein Cdc48p and its mammalian homologues VCP and p97; Sec18p and its mammalian homologue NSF, proteins necessary for fusion of transport vesicles to target membranes in the secretory pathway; Pas1p, a protein necessary for peroxisome biosynthesis in yeast; Yme1p, a yeast mitochondrial protein that influences the rate of DNA escape from mitochondria; and TBP-1, MSS1 and Sug1p, proteins that interact with transcription factors. This newly sequenced gene, named AFG2 for ATPase family gene, is located on chromosome XII 5' to the SLP1/VPS33 open reading frame and encodes an essential protein of 780 amino acids that is most homologous to Cdc48p.
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PMID:AFG2, an essential gene in yeast, encodes a new member of the Sec18p, Pas1p, Cdc48p, TBP-1 family of putative ATPases. 810 76

Nucleotide sequencing of a region of the hyperthermophilic archaebacterium Sulfolobus acidocaldarius allowed us to identify an open reading frame of 780 amino acids strikingly similar to a family of eukaryotic ATPases, involved in a variety of biological functions. Sequence analysis of the predicted polypeptide revealed 63 to 66% similarity with S. cerevisiae CDC 48p and its related genes in amphibians (p97ATPase) and mammals (Valosin Containing Protein, VCP), all possibly involved in the regulation of the cell cycle. The finding of an archaebacterial equivalent of these proteins with a high degree of similarity suggests that it represents the same gene in these various species. The new archaebacterial ORF, called SAV (S. acidocaldarius VCP-like) exhibited the usual signature of all members of the family, a highly conserved domain of about 200 amino acids, which is duplicated. Thus, apart from the VCP-like proteins, SAV also appeared similar, although less clearly, to other ATPases, members of the family, involved in vesicle-mediated transport (NSF, Sec18p), peroxysome assembly (PAS1p), and gene expression in yeast (SUG1p) and in human immunodeficiency virus (TBP-1). Finally, the discovery of the archaebacterial gene could enlighten not only the evolutionary relationships between the members of this complex ATPase family, but also the cellular function of these proteins, that is presently obscure.
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PMID:SAV, an archaebacterial gene with extensive homology to a family of highly conserved eukaryotic ATPases. 828 63

We have used a rat pachytene spermatocyte cDNA expression library to clone TBP-1 (for tat-binding protein-1; designated rat testis TBP-1 [rtTBP-1]), a new member of the family of putative ATPases associated with the 26S proteasome complex. The 1.63 kb rtTBP-1 cDNA encodes a 49 kDa protein with 99% amino acid identity to human TBP-1 protein. rtTBP-1 protein contains a heptad repeat of six leucine-type zipper fingers at the amino terminal end and highly conserved ATPase and DNA/RNA helicase motifs towards the carboxyl terminal region. Chromatofocusing fractionation of rat testis sucrose extracts demonstrates that the encoded product, recognized by an antiserum raised to the first 196 amino acids of human TBP-1, consists of a protein triplet with a molecular mass range of 52-48 kDa and acidic pI (5.0-5.9). An identical immunoreactive triplet was detected by immunoblotting in extracts of fractionated pachytene spermatocytes, round spermatids and epididymal sperm. In situ hybridization using digoxigenin-labeled antisense RNA probes shows a predominant distribution of specific mRNA in the seminiferous epithelial region occupied by elongating spermatids and primary spermatocytes. Indirect immunofluorescence and immunogold electron microscopy studies show that rtTBP-1 immunoreactive sites colocalize with alpha-tubulin-decorated manchettes of elongating spermatids. In addition, rtTBP-1 immunoreactivity was detected in fibrillar and granular cytoplasmic bodies typically observed in spermatocytes and spermatids as well as in association with paraaxonemal mitochondria and outer dense fibers of the developing spermatid tail. Results of this study indicate that rtTBP-1 is a member of the highly evolutionary conserved TBP-1-like subfamily of putative ATPases, sharing regions of identity-including ATP-binding sites-with several subunits of the 26S proteasome, known to be involved in the ATP-dependent degradation of ubiquitin-conjugated proteins.
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PMID:A protein associated with the manchette during rat spermiogenesis is encoded by a gene of the TBP-1-like subfamily with highly conserved ATPase and protease domains. 926 64

We have previously cloned a cDNA encoding TBP-1, a protein present in the rat spermatid manchette and outer dense fibers of the developing sperm. TBP-1 contains a heptad repeat of six-leucine zipper fingers at the amino terminus and highly conserved ATPase and DNA/RNA helicase motifs toward the carboxyl terminus. TBP-1 is one of the 20 subunits forming the 19S regulatory complex of the 26S proteasome, an ATP-dependent multisubunit protease found in most eukaryotic cells. We now report the isolation of the 26S proteasome from rat testis and sperm tail and its visualization by whole-mount electron microscopy using negative staining. The 26S proteasome from rat testis was fractionated by Sephacryl S-400/Mono-Q chromatography using homogenates suspended in a 10% glycerol-supplemented buffer. Chromatographic fractions were analyzed by immunoblotting using a specific anti-TBP-1 serum. During the purification of Sak57, a keratin filament present in outer dense fibers from epididymal sperm, we detected a substantial amount of 26S proteasomes. Intact 26S proteasomes from rat testis display a rod-shaped particles about 45 nm in length and 11-17 nm in diameter. Each particle consists of a 20S barrel-shaped component formed by four rings (alphabetabetaalpha), capped by two polar 19S regulatory complexes, each identified by an element known as the "Chinese dragon head motif". TBP-1 is an ATPase-containing subunit of the 19S regulatory cap. Rat sperm preparations displayed both dissociated 26S proteasomes and Sak57 filaments. We hypothesize that 26S proteasomes in the perinuclear-arranged manchette are in a suitable location for recognition, sequestration, and degradation of accumulating ubiquitin-conjugated somatic and transient testis-specific histones during spermiogenesis. In the sperm tail, the 26S proteasome may have a role in the remodeling of the outer dense fibers and other tail components during epididymal transit.
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PMID:Structural features of the 26S proteasome complex isolated from rat testis and sperm tail. 1098 18

TBP-1 /Tat-Binding Protein 1 (also named Rpt-5, S6a or PSMC3) is a multifunctional protein, originally identified as a regulator of HIV-1-Tat mediated transcription. It is an AAA-ATPase component of the 19S regulative subunit of the proteasome and, as other members of this protein family, fulfils different cellular functions including proteolysis and transcriptional regulation. We and others reported that over expression of TBP-1 diminishes cell proliferation in different cellular contexts with mechanisms yet to be defined. Accordingly, we demonstrated that TBP-1 binds to and stabilizes the p14ARF oncosuppressor increasing its anti-oncogenic functions. However, TBP-1 restrains cell proliferation also in the absence of ARF, raising the question of what are the molecular pathways involved. Herein we demonstrate that stable knock-down of TBP-1 in human immortalized fibroblasts increases cell proliferation, migration and resistance to apoptosis induced by serum deprivation. We observe that TBP-1 silencing causes activation of the Akt/PKB kinase and that in turn TBP-1, itself, is a downstream target of Akt/PKB. Moreover, MDM2, a known Akt target, plays a major role in this regulation. Altogether, our data suggest the existence of a negative feedback loop involving Akt/PKB that might act as a sensor to modulate TBP-1 levels in proliferating cells.
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PMID:A regulatory mechanism involving TBP-1/Tat-Binding Protein 1 and Akt/PKB in the control of cell proliferation. 3148 38