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)

Heat shock protein (Hsp) 70/Hsp90-organizing proteins (Hop/Sti1) are thought to function as adaptor proteins to link the two chaperone machineries Hsp70 and Hsp90 during the processing of substrate proteins in eukaryotes. Hop (Hsp70/Hsp90-organizing protein) is composed of three tetratricopeptide repeat (TPR) domains, of which the first (TPR1) binds to Hsp70, the second (TPR2A) binds to Hsp90, and the third (TPR2B) is of unknown function. Contrary to most other eukaryotes, the homologue closest to the Caenorhabditis elegans Hop homologue R09E12.3 (CeHop) lacks the TPR1 domain and the short linker region connecting it to TPR2A, questioning the reported function as an Hsp90/Hsp70 adaptor in vitro and in vivo. We observed high constitutive expression levels of CeHop and detected significant phenotypes upon knockdown, linking the protein to functions in gonad development. Interestingly, we observed physical interactions with both chaperones Hsp70 and Hsp90, albeit only the interaction with Hsp90 is strong and inhibition of the Hsp90 ATPase activity can be observed upon binding of CeHop. However, the formation of ternary complexes with both chaperone machineries is impaired, as Hsp70 and Hsp90 compete for CeHop interaction sites, in particular as Hsp90 binds to both TPR domains simultaneously and requires both TPR domains for ATPase regulation. These results imply that, at least in C. elegans, essential functions of Hop exist which apparently do not depend on the simultaneous binding of Hsp90 and Hsp70 to Hop.
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PMID:The non-canonical Hop protein from Caenorhabditis elegans exerts essential functions and forms binary complexes with either Hsc70 or Hsp90. 1955 11

CHD4 (chromodomain helicase DNA-binding protein 4) ATPase is a major subunit of the repressive NuRD (nucleosome remodelling and deacetylase) complex, which is involved in transcriptional regulation and development. CHD4 contains two PHD (plant homeodomain) fingers of unknown function. Here we show that the second PHD finger (PHD2) of CHD4 recognizes the N-terminus of histone H3 and that this interaction is facilitated by acetylation or methylation of Lys9 (H3K9ac and H3K9me respectively) but is inhibited by methylation of Lys4 (H3K4me) or acetylation of Ala1 (H3A1ac). An 18 microM binding affinity toward unmodified H3 rises to 0.6 microM for H3K9ac and to 0.9 microM for H3K9me3, whereas it drops to 2.0 mM for H3K4me3, as measured by tryptophan fluorescence and NMR. A peptide library screen further shows that phosphorylation of Thr3, Thr6 or Ser10 abolishes this interaction. A model of the PHD2-H3 complex, generated using a combination of NMR, data-driven docking and mutagenesis data, reveals an elongated site on the PHD2 surface where the H3 peptide is bound. Together our findings suggest that the PHD2 finger plays a role in targeting of the CHD4/NuRD complex to chromatin.
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PMID:Binding of the CHD4 PHD2 finger to histone H3 is modulated by covalent modifications. 1962 89

To investigate the effect of anaerobiosis on the Saccharomyces cerevisiae mitochondrial proteome and the formation of respiratory chain and other protein complexes, we analyzed mitochondrial protein extracts that were enriched from lysates of aerobic and anaerobic steady-state chemostat cultures. We chose an innovative approach in which native mitochondrial membrane protein complexes were separated by 1-D blue native PAGE, which was combined with quantitative analysis of each complex subunit using stable isotope labeling. LC-FT(ICR)-MS/MS analysis was applied to identify and quantify the mitochondrial proteins. In addition, to establish if changes in mitochondrial complex composition occurred under anaerobiosis, we investigated the 1-D blue native PAGE protein migration patterns by Pearson correlation analysis. Surprisingly, we discovered that under anaerobic conditions, where the yeast respiratory chain is not active, the respiratory chain supercomplexes, such as complex V dimer, complex (III)(2)(IV)(2) and complex (III)(2)(IV) were still present, although at reduced levels. Pearson correlation analysis showed that the composition of the mitochondrial complexes was unchanged under aerobic or anaerobic conditions, with the exception of complex II. In addition, this latter approach allowed screening for possible novel complex interaction partners, since for example protein Aim38p, with a yet unknown function, was identified as a possible component of respiratory chain complex IV.
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PMID:A three-way proteomics strategy allows differential analysis of yeast mitochondrial membrane protein complexes under anaerobic and aerobic conditions. 1975 May 12

2-DE reference maps for Deinococcus geothermalis cytosolic and cell envelope proteomes were constructed. In total, 403 spots were identified as 299 different proteins. Unique in the proteomes were four subunits of V-type ATPase and Deinococcus specific proteins constituting one-fourth of cell envelope proteome. The cytoplasmic proteome included enzymes of the central carbon metabolism, chaperones, enzymes of protein and DNA repair, and oxidative stress. A total of 34 abundant proteins with unknown function may relate to the extreme stress tolerance of D. geothermalis.
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PMID:Two-dimensional proteome reference map for the radiation-resistant bacterium Deinococcus geothermalis. 1994 6

To identify genes that enable the enteric redmouth disease bacterium, Yersinia ruckeri, to persist in salmonid fish, 1056 signature-tagged mini-Tn5Km2 transposon mutants of a serotype 1 strain of Y. ruckeri, RS1154, were screened in rainbow trout by immersion infection. Two rounds of screening in fish identified 25 mutants that were not re-isolated from the kidney, 7 days post-infection. Six mutants were tested a third time in fish, in 1:1 competitive challenges with the parent strain; 4 failed to establish in kidney and 2 were present at low levels compared to the parent. Sequence analyses from the single transposon insertion sites in each of the 25 mutants identified genes with sequence homologies to genes for ZnuA, a periplasmic zinc-binding protein of ZnuABC transporter; the UvrY response regulator of BarA-UvrY two-component system; a PtrA protease of the insulin-degrading enzyme family; the RcpA protein of type IV bundle-forming pili; the ParA ATPase of a ParAB DNA-partitioning system; a Wzy polymerase; a polysaccharide deacetylase; a transporter belonging to the major facilitator superfamily and 7 hypothetical proteins of unknown function. The products of 5 of these mutated genes have predicted functions associated with cell surfaces or membranes, which could be important for survival of Y. ruckeri in rainbow trout, while other putative gene products could contribute to infection and invasion processes.
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PMID:Yersinia ruckeri genes that attenuate survival in rainbow trout (Oncorhynchus mykiss) are identified using signature-tagged mutants. 2020 63

The ubiquitin-proteasome pathway is a major proteolytic system in eukaryotic cells and regulates various cellular processes. The 26 S proteasome, the central enzyme of this pathway, consists of a proteolytic core particle and two 19 S regulatory particles (RPs) composed of ATPase (Rpt) and non-ATPase (Rpn) subunits. Growing evidence indicates that proteasome assembly is assisted by a variety of chaperones. In particular, it has been reported recently that Nas2, Nas6, Rpn14, and Hsm3 bind specific Rpt subunits, thereby contributing to the formation of 19 S RP. Rpn14 transiently binds to the C-terminal domain of the Rpt6 subunit (Rpt6-C) during maturation of the ATPase ring of 19 S RP. In this study, we determined the crystal structure of yeast Rpn14 at 2.0 A resolution, which revealed that this chaperone consists of a unique N-terminal domain with unknown function and a C-terminal domain assuming a canonical seven-bladed beta-propeller fold. The Rpt6-binding site on Rpn14 was predicted based on structural comparison with the complex formed between Nas6 and Rpt3-C. The top face of Rpn14 exhibits a highly acidic surface area, whereas the putative interacting surface of Rpt6-C is basic. By inspection of structural data along with genetic and biochemical data, we determined the specific residues of Rpn14 and Rpt6 for complementary charge interactions that are required for 19 S RP assembly.
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PMID:Crystal structure of yeast rpn14, a chaperone of the 19 S regulatory particle of the proteasome. 2023 27

Type IV pili are long filamentous appendages required for both adhesion and a unique form of motility known as twitching. Twitching motility involves the extension and retraction of the pilus and requires a number of gene products, including five conserved pilin-like proteins of unknown function (FimU, PilV, PilW, PilX, and PilE in Pseudomonas aeruginosa), termed 'minor' pilins. Maintenance of a specific stoichiometric ratio among the minor pilins was important for function, as loss or overexpression of any component impaired motility. Disruption of individual minor pilin genes, or of the AlgR positive regulator of minor pilin operon expression in a strain where pilus retraction was blocked by inactivation of the PilT retraction ATPase, revealed that pili were produced, although levels of piliation were reduced relative to pilT positive control. Differences in the levels of piliation of complemented strains pointed to specific roles for each protein in the assembly process, with FimU and PilX being implicated as key promoters of pilus assembly on the cell surface. Using specific antibodies for each protein, we showed that the minor pilins FimU, PilV, PilW, PilX, and PilE were processed by the pre-pilin peptidase PilD and incorporated throughout the growing pilus filament. This is the first study to demonstrate that the minor pilins, conserved among bacteria expressing type IVa pili, are incorporated into the fiber and support a role for them in the initiation, but not termination, of pilus assembly.
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PMID:Pseudomonas aeruginosa minor pilins are incorporated into type IV pili. 2033 82

C-tail-anchored (TA) proteins constitute a heterogeneous group of membrane proteins that are inserted into membranes by unique post-translational mechanisms and that play key roles within cells. During recent years, bioinformatic screens on eukaryotic genomes have helped to obtain comprehensive pictures of the number, intracellular distribution and functions of TA proteins, but similar screens had not yet been carried out on prokaryotic cells. Here, we report the results of a bioinformatic screen of the genomes of two bacteria and one archeon. We find that all three of these prokaryotes contain TA proteins in proportions approaching those found in eukaryotic cells, indicating that this protein group is present in all three domains of life. Although some of our hits correspond to proteins of unknown function, others are enzymes with hydrophobic substrates or have functions carried out at the inner face of the cytoplasmic membrane. To generate hypotheses on the insertion mechanisms of prokaryotic TA proteins, we compared the sequences of the prokaryotic and eukaryotic versions of Asna1/Trc40/GET3, a cytosolic ATPase that plays a key role in TA protein post-translational delivery to membranes in eukaryotic cells. We found that hydrophobic residues involved in TA binding by the eukaryotic chaperone (Mateja et al., Nature 2009;461:361-366) are generally replaced with equally hydrophobic amino acids in the archeal homologue (ArsA), whereas this is not the case for the bacterial protein. Thus, eukaryotes may have inherited the GET3 targeting pathway from our archeal ancestor, while the bacterial homologue may be exclusively dedicated to heavy metal resistance.
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PMID:Remote origins of tail-anchored proteins. 2040 21

The COG database was used for a comparative genome analysis with genomes from anaerobic and aerobic microorganisms with the aim of identifying proteins specific to the anaerobic way of life. A total of 33 COGs were identified, five of which correspond to proteins of unknown function. We focused our study on TM0486 from Thermotoga maritima, which belongs to one of these COGs of unknown function, namely COG0011. The crystal structure of the protein was determined at 2 A resolution. The structure adopts a beta alpha beta beta alpha beta ferredoxin-like fold and assembles as a homotetramer. The structure also revealed the presence of a pocket in each monomer that bound an unidentified ligand. NMR and calorimetry revealed that TM0486 specifically bound thiamin with a K(d) of 1.58 microM, but not hydroxymethyl pyrimidine (HMP), which has been implicated as a potential ligand. We demonstrated that the TM0486 gene belongs to the same multicistronic unit as TM0483, TM0484 and TM0485. Although these three genes have been assigned to the transport of HMP, with TM0484 being the periplasmic thiamin/HMP-binding protein and TM0485 and TM0483 the transmembrane and the ATPase components, respectively, our results led us to conclude that this operon encodes an ABC transporter dedicated to thiamin, with TM0486 transporting charged thiamin in the cytoplasm. Given that this transcriptional unit was up-regulated when T. maritima was exposed to oxidative conditions, we propose that, by chelating cytoplasmic thiamin, TM0486 and, by extension, proteins belonging to COG0011 are involved in the response mechanism to stress that could arise during aerobic conditions.
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PMID:TM0486 from the hyperthermophilic anaerobe Thermotoga maritima is a thiamin-binding protein involved in response of the cell to oxidative conditions. 2047

Pseudomonas syringae pv. syringae B728a is a resident on leaves of common bean, where it utilizes several well-studied virulence factors, including secreted effectors and toxins, to develop a pathogenic interaction with its host. The B728a genome was recently sequenced, revealing the presence of 1,297 genes with unknown function. This study demonstrates that a 29.9-kb cluster of genes in the B728a genome shares homology to the novel type VI secretion system (T6SS) locus recently described for other gram-negative bacteria. Western blot analyses showed that B728a secretes Hcp, a T6SS protein, in culture and that this secretion is dependent on clpV, a gene that likely encodes an AAA(+) ATPase. In addition, we have identified two B728a sensor kinases that have homology to the P. aeruginosa proteins RetS and LadS. We demonstrate that B728a RetS and LadS reciprocally regulate the T6SS and collectively modulate several virulence-related activities. Quantitative PCR analyses indicated that RetS and LadS regulate genes associated with the type III secretion system and that LadS controls the expression of genes involved in the production of the exopolysaccharides alginate and levan. These analyses also revealed that LadS and the hybrid sensor kinase GacS positively regulate the expression of a putative novel exopolysaccharide called Psl. Plate assays demonstrated that RetS negatively controls mucoidy, while LadS negatively regulates swarming motility. A mutation in retS affected B728a population levels on the surfaces of bean leaves. A model for the LadS and RetS control of B728a virulence activities is proposed.
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PMID:Sensor kinases RetS and LadS regulate Pseudomonas syringae type VI secretion and virulence factors. 2047 99


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