EC:3.6.1.3 - FACTA Search

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 investigate whether RNA editing in plant mitochondria modifies structural RNAs as well as protein-coding RNAs we compared the genomic-encoded information with the respective transcripts of several genes in Oenothera. The genes analysed are the 5S, 18S and 26 S rRNAs, the alpha-subunit of ATPase (atpA), cytochrome b (cytb), orfB, which is located upstream of cytochrome oxidase subunit III, and the respective leader, trailer and spacer sequences. All open reading frames were found to be edited to some degree. The atpA coding region has the least edited mRNA in Oenothera mitochondria, with only four nucleotides altered in the 1533 nucleotide open reading frame. From this analysis we conclude that frequent RNA editing is indicative of functional protein coding regions in plant mitochondria. The extensive editing in orfB, for example, suggests that this orf codes for a mitochondrial protein. No RNA editing event was found in the 5S rRNA or in the 1824 nucleotides analysed of the 18S rRNA, but two nucleotides were found to be altered in the 1970 nucleotides compared for the 26S rRNA. One nucleotide alteration has changed C to U, the other in reverse U to C. However, only one of five cDNA clones covering this region shows the modifications, similar to many silent editing events in open reading frames. RNA editing in the structural RNAs thus does not seem to be essential for their function in the mitochondrial ribosome.
...
PMID:Distribution of RNA editing sites in Oenothera mitochondrial mRNAs and rRNAs. 172 5

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

The complete sequence of the kdp gene region of Clostridium acetobutylicum has been determined. This part of the chromosome comprises two small open reading frames (orfZ and orfY), putatively encoding hydrophobic peptides, and the genes kdpA, kdpB, kdpC, and kdpX, followed by an operon encoding a pair of sensor-effector regulatory proteins (KdpD and KdpE). Except for orfZ, orfY, and kdpX, all genes showed significant homology to the kdp genes of Escherichia coli, encoding a high-affinity potassium transport ATPase and its regulators. The complete genome sequence of Synechocystis sp. strain PCC 6803 and a recently published part of the Mycobacterium tuberculosis genome indicate the existence of a kdp system in these organisms as well, but all three systems comprise neither a second orf upstream of kdpA nor an additional kdpX gene. Expression of the clostridial kdp genes, including the unique kdpX gene, was found to be inducible by low potassium concentrations. A transcription start point could be mapped upstream of orfZ. A promoter upstream of kdpD was active only under noninducing conditions. Lowering the potassium content of the medium led to formation of a common transcript (orfZYkdpABCXDE), with a putative internal RNase E recognition site, which could be responsible for the instability of the common transcript. Except for the two small peptides, all gene products could be detected in in vitro transcription-translation experiments.
...
PMID:The kdp system of Clostridium acetobutylicum: cloning, sequencing, and transcriptional regulation in response to potassium concentration. 922 59

Partition cassettes, essential for the segregational stability of low-copy-number bacterial plasmids, typically encode two autoregulated proteins and an adjacent cis-acting centromere analog to which one or perhaps both proteins bind. The diminutive partition region of pTAR of Agrobacterium spp. was reported to be exceptional, encoding only a single protein, ParA (D. R. Gallie and C. I. Kado, J. Mol. Biol. 193:465-478, 1987). However, resequencing of the region revealed two small downstream genes, parB and orf-84, of which only parB was found to be essential for partitioning in A. tumefaciens. Purified ParA exhibited a weak ATPase activity that was modestly increased by nonspecific DNA. ParB bound in vitro to repeated sequences present in a region, parS, that possesses centromere and operator functions and within which we identified the primary transcription start site by primer extension. In certain respects the Par proteins behave normally in the foreign host Escherichia coli. In E. coli, as in A. tumefaciens, ParB repressed the partition operon; ParA, inactive alone, augmented this repression. Functional similarities between the partition system of pTAR and those of other plasmids and bacteria are prominent, despite differences in size, organization, and amino acid sequence.
...
PMID:pTAR-encoded proteins in plasmid partitioning. 1071 93

Two outbreaks of orf virus (a parapoxvirus) infection in goats found in Nantou and Taiping of central Taiwan were investigated. The nucleotide and the amino acid sequences of viral B2L, E3L and A32L genes in these two outbreaks were analyzed, and each of their phylogenetic trees were also constructed. In the A32L gene, an unexpected deletion of 24 nucleotides was found in the Taiping strain. The A32L gene can encode an ATPase and is supposed to be involved in virion DNA packaging. The 24 nucleotides correspond to 8 amino acids residues of the viral ATPase, which are located near the C-terminal region of the enzyme. Moreover, two copies of the RGD sequence at C-terminal region of ATPase were found in the Nantou strain. The 24-nucleotide difference in the A32L gene indicated that the Nantou strain and the Taiping strain were two separate strains, and it can be used in differential molecular diagnosis. Moreover, the C-terminal heterogeneity was found to be a general feature of the viral ATPase. Lastly, similar functional motifs of the ATPase and the Ras proto-oncoprotein (a GTPase) are discussed.
...
PMID:Phylogenetic analysis of parapoxviruses and the C-terminal heterogeneity of viral ATPase proteins. 1906 42

The complete nucleotide sequence of the A32L gene (named after vaccinia virus, corresponding with open reading frame 108 of the orf virus and encoding an ATPase) of the orf virus was studied using samples of orf virus from infected goats, which were collected from six outbreaks in central Taiwan. DNA sequence analysis of the A32L genes of these and isolates from other countries showed sequence heterogeneity (base pair variation and deletion) in the 3'-terminal regions. This finding led to the development of a polymerase chain reaction (PCR) method for the rapid differential diagnosis of orf virus infections, and the results demonstrated that this was an easy and reliable method for genotyping of orf viruses.
...
PMID:Differential diagnosis of orf viruses by a single-step PCR. 1940 29

This study genetically characterized orf viruses (ORFVs) isolated from recent outbreaks in Japanese serows (Capricornis crispus) in 2007 and 2008, and from earlier outbreaks from 1985 to 2001. Nucleotide sequences of genes for the viral envelope, vascular endothelial growth factor (VEGF), and virus interferon resistance (VIR) were determined in two ORFVs isolated from recent outbreaks and in eight from earlier outbreaks. No deletions or insertions were observed in these genes. Surprisingly, the amino acid sequences of the envelope and VIR genes were identical among the 10 ORFVs, and only one amino acid substitution in the VEGF gene was found in one of the two recent ORFVs (2007). Genotyping by differential PCR for the A32L gene, which encodes an ATPase, classified all of the 10 ORFVs into the same genotype. In an ORFV isolated from a sheep in 1970, the three sequenced genes were almost the same as in the ORFVs isolated from Japanese serows, and the ORFV in 1970 was classified into the same genotype as the ORFVs from Japanese serows. These results suggest that recent outbreaks in Japanese serows are caused by ORFVs genetically closely related to the viruses in earlier outbreaks and that these genetically stable ORFVs have circulated among Japanese serows over a long period of time.
...
PMID:Spatial and temporal genetic homogeneity of orf viruses infecting Japanese serows (Capricornis crispus). 2012 63

Nucleotide sequence analysis has indicated that the A32L gene of orf virus can encode an ATPase (Chan et al. in Gene 432:44-53, 2009). In this work, we cloned the A32L gene into a prokaryotic expression vector, and the recombinant protein was expressed and purified. The antigenicity of recombinant ATPase was examined by immunoblotting, and its identity was confirmed by mass spectrometry. The ATP hydrolysis function of the purified recombinant protein was examined, and our results showed that it exhibited the ATPase activity. Similar to other viral ATPases, the ATPase of orf virus remained active in the presence of different divalent ions; nevertheless, unlike other viral ATPases, our recombinant ATPase exhibited similar enzymatic activity in reaction buffers of different pH.
...
PMID:Functional expression of the recombinant ATPase of orf virus. 2065 36

Our previous study showed that the recombinant ATPase encoded by the A32L gene of orf virus displayed ATP hydrolysis activity as predicted from its amino acids sequence. This viral ATPase contains four known functional motifs (motifs I-IV) and a novel AYDG motif; they are essential for ATP hydrolysis reaction by binding ATP and magnesium ions. The motifs I and II correspond with the Walker A and B motifs of the typical ATPase, respectively. To examine the biochemical roles of these five conserved motifs, recombinant ATPases of five deletion mutants derived from the Taiping strain were expressed and purified. Their ATPase functions were assayed and compared with those of two wild type strains, Taiping and Nantou isolated in Taiwan. Our results showed that deletions at motifs I-III or IV exhibited lower activity than that of the wild type. Interestingly, deletion of AYDG motif decreased the ATPase activity more significantly than those of motifs I-IV deletions. Divalent ions such as magnesium and calcium were essential for ATPase activity. Moreover, our recombinant proteins of orf virus also demonstrated GTPase activity, though weaker than the original ATPase activity.
...
PMID:Purification and functional motifs of the recombinant ATPase of orf virus. 2154 Jan 13

Thirteen orf virus (ORFV) isolates from natural outbreaks in sheep and goats belonging to different geographical regions of India were analysed on the basis of ORF108 (a homologue of poxviral A32 gene), which is known to encode for ATPase and involved in virion DNA packaging. Comparative sequence analysis of ATPase proteins revealed highly conserved N-terminal region with five different motifs [Walker A, Walker B, A32L specific motifs (III and IV) and a novel AYDG (motif-V)] among all poxviruses and divergent carboxyl terminus with either single or double RGD sequences among all Indian ORFV isolates. A homology model and secondary structure predictions of N-terminal region of ORFV A32 revealed that most of the poxviruses including ORFV ATPase protein belong to a distinct clade of the HerA/FtsK super family of DNA packaging proteins. Despite differences in host cell specificity and poxvirus infections among animals, DNA packaging motor domain of poxviruses presumed to share remarkable similarities as indicated by the presence of conserved ATPase motifs in the present investigation. The study also indicated the circulation of heterogeneous strains of ORFV in India and possibilities of differentiation of ORFV strains based on C-terminal heterogeneity.
...
PMID:Comparative sequence analysis of poxvirus A32 gene encoded ATPase protein and carboxyl terminal heterogeneity of Indian orf viruses. 2207 58

1 2 Next >>