Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts:   Target Concepts:
Query: EC:3.6.1.3 (ATPase)
 65,361 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

To understand the subcellular roles and the regulation of vacuolar H(+)-ATPases, we have begun to identify the genes encoding the major subunits and to determine their patterns of expression in Arabidopsis thaliana. Two distinct cDNAs (AVA-P1 and AVA-P2) and one genomic sequence (AVA-P3) encoding the 16 kDa subunit have been isolated. The 16 kDa proteolipid is a major component of the membrane integral sector that forms the proton conductance pathway and is required for assembly of the V-ATPase complex. Interestingly, the open reading frame of one full-length cDNA (AVA-P1) and a genomic sequence (AVA-P3) encoded an identical polypeptide of 164 amino acids with a molecular mass of 16,570. The deduced amino acid sequences of the two cDNAs were nearly identical (99%) and hydropathy plots suggested a molecule with four membrane-spanning domains characteristic of V-ATPase proteolipids. The three genes differed mainly in their codon usage and in their 3'-untranslated regions. The coding region of the genomic sequence, AVA-P3, was interrupted by two introns located at the codons for Cys-26 and Arg-121. The presence of additional 16 kDa proteolipid genes was suggested from several polymerase chain reaction (PCR)-amplified fragments that differed from one another in the size of the second intron. PCR 1 had an intron of ca. 800 bp and its identity as AVA-P4, a fourth member of the gene family, was confirmed from sequence analyses of an EST cDNA. The mRNAs of three genes (AVA-P1, AVA-P2 and AVA-P3) were detected in Arabidopsis leaf, root, flower and silique; yet expression of AVA-P1 and AVA-P2 was lower in roots. All three genes were expressed in light- or dark-grown seedlings; however mRNA levels of AVA-P2 were enhanced in etiolated plants. Arabidopsis thaliana, therefore, has at least four distinct genes encoding nearly identical 16 kDa proteolipids, and the enhanced expression of AVA-P2 transcript in etiolated seedlings suggests that an increase in V-ATPase could accompany cell expansion.
 ...
PMID:Several distinct genes encode nearly identical to 16 kDa proteolipids of the vacuolar H(+)-ATPase from Arabidopsis thaliana. 757 75

To clarify the possible role of calpain (calcium activated neutral protease; EC 3.4.22.17) in Ca2+ homeostasis of human platelets, we investigated the effects of cell permeable calpain inhibitors, calpeptin and E-64d (EST), on the restoration of cytoplasmic Ca2+ ([Ca2+]i) in both Fura-2 and aspirin (ASA) loaded platelets. Although neither calpeptin (30 microM) nor EST (250 microM) altered the increase of [Ca2+]i in thrombin (1 U/ml) stimulated platelets, both calpain inhibitors delayed the decrease of [Ca2+]i back towards the basal level. These observations suggested that calpain might be involved in Ca2+ restoration. Then, the activity of Ca(2+)-ATPase was examined in thrombin (2 U/ml) stimulated platelets. Thrombin produced a rapid rise in Ca(2+)-ATPase activity by 2-fold at 8 s of incubation, which then returned to below the basal activity within 2 min. Calpeptin inhibited transient Ca(2+)-ATPase activation induced by thrombin in a dose related manner. Ca(2+)-ATPase of isolated platelet membranes was digested by purified human platelet calpain-I and Ca(2+)-ATPase activity was investigated. With a short incubation (8-15 s), Ca(2+)-ATPase activity was increased about 2-fold and then it decreased below the basal level at longer incubations or at a higher calpain/membrane ratio. The initial rate of Ca2+ uptake was also increased by about 2-fold with a short incubation (8-15 s). For molecular characterization of the Ca(2+)-ATPase, the formation of the enzyme-phosphate complex (EP) was investigated. The membrane bound intact 105 kD Ca(2+)-ATPase was converted by calpain to a fragment of approximately 50 kD.(ABSTRACT TRUNCATED AT 250 WORDS)
 ...
PMID:Stimulation of human platelet Ca(2+)-ATPase and Ca2+ restoration by calpain. 839 39

We present DNA sequence data from a 35,364 bp region on the left arm of chromosome VII of Saccharomyces cerevisiae. This region contains 19 open reading frames (ORFs). ORF G1821 corresponds to the RAD54 gene involved in repair and recombination (Emery et al., 1991). G1810 is identical to the ACE1 gene sequenced by Szczypka and Thiele (1989), required for copper-inducible transcription of the CUP1 gene. The first 693 bp on the minus strand represent part of the 3' non-coding region from the P-type ATPase gene PMR1, previously sequenced by Rudolph et al. (1989), which is identical to the SSC1 gene (Smith et al., 1988). G1845 corresponds to the RCK1 protein kinase gene from S. cerevisiae (Dahlkvist and Sunnerhagen, 1994). G1861 is almost identical to the alpha-mannosidase gene AMS1 reported by Yoshihisa and Anraku (1989) and G1864 has 100% identity with the yeast CAL1 gene (Ohya et al., 1989)/CDC43 gene (Johnson et al., 1990) which is involved in control of cell polarity. This region also contains a gene specifying a Leu-tRNA precursor and a remnant of a tau element. ORF G1880 shows some similarity to the S. cerevisiae SNF2, STH1 and NPS1 genes and to the human ERCC1 gene. A 93 bp region shows similarity to yeast EST sequenced by Burns et al. (1994). None of the remaining ORFs has similarity to any sequence within the databases screened.
 ...
PMID:DNA sequence analysis of a 35 kb segment from Saccharomyces cerevisiae chromosome VII reveals 19 open reading frames including RAD54, ACE1/CUP2, PMR1, RCK1, AMS1 and CAL1/CDC43. 858 24

DNA comprising 219 447 bp was sequenced in nine cosmids and verified at > 99.9% precision. Of the standard repetitive elements, 187 Alus make up 20.6% of the sequence, but there were only 27 MERs (2.9%) and 17 L1 fragments (1.6%). This may be characteristic of such high GC (57%) regions. The sequence also includes an 11.3 kb tract duplicated with 99.2% identity at a distance of 38 kb. The region is 80-90% transcribed and 12.5% translated. Thirteen known genes and their exon-intron borders are all accurately predicted at least in part by GRAIL programs, as are six additional genes. From centromere to telomere, the orientation of transcription varies among the first eight genes, then runs centromeric to telomeric for the next five, and is in the opposite sense for the last six. Eighteen of the 19 genes are associated with CpG islands. Two islands are exact copies in the 11.3 kb repeat units, and could thus give rise to double dosage levels of an X-linked gene. Another island is associated with two genes transcribed in opposite directions. From the sequence data, three genes and their exon structure are inferred. One of them, previously associated with HEX2, is shown to be a different gene unrelated to hexokinases; a second gene, previously known by an EST, is plexin, from its 65.5% identity with the Xenopus analog; and a third is a subunit of a vacuolar H-ATPase, and is named VATPS1.
 ...
PMID:Long-range sequence analysis in Xq28: thirteen known and six candidate genes in 219.4 kb of high GC DNA between the RCP/GCP and G6PD loci. 873 35

To date, eight closely related homologs of the Escherichia coli UmuC protein have been identified. All of these homologs appear to play critical roles in damage-inducible mutagenesis in enterobacteriaceae. Recently, a distantly related UmuC-homolog, DinB, has also been identified in E. coli. Using the polymerase chain reaction together with degenerate primers designed against conserved regions found in UmuC-like proteins, we have identified a new member of the UmuC-superfamily in the archeon Sulfolobus solfataricus. This new homolog shows high sequence similarity to DinB and a lower level of similarity to UmuC. As a consequence, we have called this new gene dbh (dinB homolog). Analysis of approximately 2.7 kb DNA encompassing the dbh region revealed several open reading frames (orfs). One, encoding a putative ribokinase, was located immediately upstream of dbh. This orf overlaps the dbh gene by 4 bp suggesting that both proteins might be coordinately expressed. Further upstream of the ribokinase-dbh locus was another orf encoding a potential ATPase homologous to two uncharacterized S. cerevisiae proteins (YD9346.02c and SC38KCXVI_20) and another E. coli DNA repair protein, RuvB. While this is the first report of a UmuC-like homolog in an archeon, we detected additional homologs using protein sequence comparisons in Gram-positive bacteria, cyanobacteria, and among potential human EST products, indicating that UmuC-related proteins comprise a ubiquitous superfamily of proteins probably involved in DNA repair and mutagenesis.
 ...
PMID:Identification of a DinB/UmuC homolog in the archeon Sulfolobus solfataricus. 887 1

A gene family of small membrane proteins, represented by phospholemman and the gamma subunit of Na,K-ATPase, was defined and characterized by the analysis of more than 1000 related ESTs (expressed sequence tags). In addition to new and more complete cDNA sequence for known family members (including MAT-8, CHIF, and RIC), the findings included two new family members and new splicing variants. A large number of EST replicates made it possible to derive curated DNA sequence with higher confidence and accuracy than from the sequencing of individual clones. The family has a core motif of 35 invariant and conserved amino acids centered on a single transmembrane span. Features of each predicted protein product were compared, and tissue distributions were determined. The gene family was named FXYD (pronounced fix-id) in recognition of invariant amino acids in its signature motif. The abundant proteins are involved in the control of ion transport.
 ...
PMID:The FXYD gene family of small ion transport regulators or channels: cDNA sequence, protein signature sequence, and expression. 1095 Sep 25

Tortula ruralis is an important experimental system for the study of plant vegetative desiccation tolerance. EST gene discovery efforts utilizing desiccated gametophytes have identified a cDNA Vac1 encoding a predicted polypeptide with significant similarity to the vacuolar H(+)-ATPase c subunit. VAC1, the 167 amino acid deduced polypeptide, has a predicted molecular mass of 16.9 kDa, and a predicted pI of 9.7. Phylogenetic analysis demonstrated that previously characterized proteolipid polypeptide sequences could be reproducibly grouped into two major clades and that VAC1 forms a discrete evolutionary group. RNA blot and Western blot hybridizations were used to analyse expression of Vac1 and accumulation of VAC1 in response to (1) desiccation and rehydration, (2) increased NaCl concentration, and (3) NaCl-shock. During a desiccation-rehydration cycle, Vac1 transcripts are expressed in both the total and polysomal RNA fractions in approximately equal amounts, and the steady-state transcript levels are unchanged. However, Vac1 transcript levels increased in response to both elevated NaCl concentration and NaCl-shock. There is a preferential accumulation of Vac1 transcripts within the polysomal RNA fraction in response to salt stress, and these data suggest that T. ruralis possesses a salinity-stress-dependent and desiccation-stress-independent mechanism for post-transcriptional gene control. Using a cotton anti-c subunit polyclonal antibody raised against the C-terminal domain, it was shown that the amount of Tortula 16 kDa proteolipid in the tonoplast protein fraction was unaffected by any stress treatment.
 ...
PMID:Characterization of the V-type H((+))-ATPase in the resurrection plant Tortula ruralis: accumulation and polysomal recruitment of the proteolipid c subunit in response to salt-stress. 1180 26

Mitochondrial ATP synthases, the major producers of ATP in higher eukaryotic cells, are known to be regulated by a peptide designated IF(1). In contrast, in yeast three such peptides have been identified, IF(1) and STF(1), which inhibit the reverse ATPase reaction, and STF(2), a modulator of the action of these inhibitors. Despite significant homology to IF(1), STF(1) exhibits less than half ( approximately 40%) its inhibitory potency. The two-fold purpose of this bioinformatic study was to gain structural insight into the different inhibitory potencies of IF(1) and STF(1) and to determine to what extent yeast are unique in employing multiple peptides to regulate the ATP synthase. Sequence and secondary structural analyses and comparison with the known structure of bovine IF(1) predicted a dimeric structure for yeast STF(1) in which the C-terminal regions form a coiled-coil. Moreover, sequence comparisons showed that within this C-terminal region a conserved acidic residue (Asp 59) in yeast IF(1) is replaced by Asn in STF(1). In the known structure of bovine IF(1), predicted to be very similar to that of yeast IF(1), the residue Glu 68 corresponding to Asp 59 participates in the formation of a four-residue conserved acidic cluster in the middle of the coiled-coil in the C-terminal region. It is deduced here that this acidic cluster is likely to be important in the regulation of IF(1)'s inhibitory capacity and that replacement of conserved Asp 59 by Asn in STF(1) may reduce its potency. Although other homologs to the inhibitors IF(1) and STF(1) were not found in searches of available eukaryotic genomes, including human, a new homolog, named STF(3), with 65% identity to the modulator STF(2), was discovered within the yeast genome and identified to be expressed by searching the yeast EST database. Thus, yeast appears unique in regulating the ATP synthase by involving multiple peptides (IF(1), STF(1), STF(2), and perhaps STF(3)).
 ...
PMID:ATP synthase of yeast: structural insight into the different inhibitory potencies of two regulatory peptides and identification of a new potential regulator. 1217 55

Several endoplasmic reticulum (ER)-resident luminal proteins have a characteristic ER retrieval signal, KDEL, or its variants at their C terminus. Our previous work searching EST databases for proteins containing the C-terminal KDEL motif predicted some novel murine proteins, one of which designated JPDI (J-domain-containing protein disulfide isomerase-like protein) is characterized in this study. The primary structure of JPDI is unique, because in addition to a J-domain motif adjacent to the N-terminal translocation signal sequence, four thioredoxin-like motifs were found in a single polypeptide. As examined by Northern blotting, the expression of JPDI was essentially ubiquitous in tissues and almost independent of ER stress. A computational prediction that JPDI is an ER-resident luminal protein was experimentally supported by immunofluorescent staining of epitope-tagged JPDI-expressing cells together with glycosylation and protease protection studies of this protein. JPDI probably acts as a DnaJ-like partner of BiP, because a recombinant protein carrying the J-domain of JPDI associated with BiP in an ATP-dependent manner and enhanced its ATPase activity. We speculate that for the folding of some proteins in the ER, chaperoning by BiP and formation of proper disulfide bonds may synchronously occur in a JPDI-dependent manner.
 ...
PMID:JPDI, a novel endoplasmic reticulum-resident protein containing both a BiP-interacting J-domain and thioredoxin-like motifs. 1244 77

Gene expression profiling was carried out comparing Con A elicited peritoneal macrophages from C57BL6 and FVBN wild-type and apolipoprotein (apo)E knockout mice. An EST, was expressed at higher levels in C57BL6 compared with FVBN mice. mapped to an atherosclerosis susceptibility locus on chromosome 19 revealed in an intercross between atherosclerosis-susceptible C57BL6 and atherosclerosis-resistant FVBN apoE knockout mice. A combination of database search and Northern analysis confirmed that corresponded to 3'-UTR of a hitherto predicted gene, named HspA12A. Blasting the National Center for Biotechnology Information database revealed a closely related homologue, HspA12B. HspA12A and -B have very close human homologues. TaqMan analysis confirmed the increased HspA12A expression (2.6-fold) in elicited peritoneal macrophages from C57BL6 compared with FVBN mice. TaqMan analysis also revealed increased HspA12A and HspA12B expression (87- and 6-fold, respectively) in lesional versus nonlesional portions of the thoracic aorta from C57BL6 apoE knockout mice on a chow diet. In situ hybridization confirmed that both genes were expressed within lesions but not within nonlesional aortic tissue. Blasting of HspA12A and HspA12B against the National Center for Biotechnology Information database (NR) revealed a hit with the Conserved Domain database for Hsp70 (pfam00012.5, Hsp70). Both genes appear to contain an atypical Hsp70 ATPase domain. The BLAST search also revealed that both genes were more similar to primitive eukaryote and prokaryote than mammalian Hsp70s, making these two genes distant members of the mammalian Hsp70 family. In summary, we describe two genes that code for a subfamily of Hsp70 proteins that may be involved in atherosclerosis susceptibility.
 ...
PMID:Two Hsp70 family members expressed in atherosclerotic lesions. 1255 99


1 2 Next >>