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)

One of the strategies used by Gram-negative bacteria to secrete proteins across the two membranes which delimit the cells, is sec independent and dedicated to proteins lacking an N-terminal signal peptide. It depends on ABC protein-mediated exporters, which consist of three cell envelope proteins, two inner membrane proteins, an ATPase (the ABC protein), a membrane fusion protein (MFP) and an outer membrane polypeptide. Erwinia chrysanthemi metalloproteases B and C and Serratia marcescens hemoprotein HasA are secreted by such homologous pathways and interact with the ABC protein. Using as protein substrates HasA and GST-PrtC, a chimeric protein which has a glutathione S-transferase moiety fused to a large C-terminal domain of protease C, we developed a simple system to identify proteins bound to the substrate based on substrate affinity-chromatography using heme- or glutathione-agarose. We show an ordered association between the protein substrates and the three exporter components: the substrate recognizes the ABC protein which interacts with the MFP which in turn binds the outer membrane component. Substrate binding is required for assembly of the three components.
...
PMID:Protein secretion in gram-negative bacteria: assembly of the three components of ABC protein-mediated exporters is ordered and promoted by substrate binding. 891 58

One of the strategies used by Gram-negative bacteria to secrete proteins across the two membranes which delimit the cells is sec-independent and dedicated to proteins lacking an N-terminal signal peptide. Most of these proteins display a C-terminal secretion signal located in the last 60 amino acids (aa). Using one Erwinia chrysanthemi protease, PrtG, secreted by such a pathway it was shown that the smallest C-terminal sequence allowing efficient secretion contains the last 29 aa of PrtG and that low but significant secretion can be promoted by the last 15 aa of PrtG. Moreover, the extreme C-terminal motif, consisting of a negatively charged aa followed by several hydrophobic aa must be exposed and is conserved amongst many proteins following this pathway. This secretion system depends on ABC protein-mediated exporters, which consist of three cell envelope proteins: two inner membrane proteins, an ATPase (the ABC protein), a membrane fusion protein (MFP) and an outer membrane polypeptide. These Gram-negative bacterial protein exporters are dedicated to the secretion of one or several closely related proteins belonging to the toxin, protease and lipase families. The genes encoding the three secretion proteins and the exoproteins are usually all linked, consistent with the specificity of the systems. Er. chrysanthemi metalloproteases B and C and Serratia marcescens hemoprotein HasA are secreted by such homologous pathways and interact with the ABC protein. Interaction between the ABC protein and its substrate has also been evidenced by studies on protease and HasA hybrid transporters obtained by combining components from each system. Association between hemoprotein HasA and the three exporter secretion proteins was demonstrated by affinity chromatography on hemin agarose on which the substrate remained bound with the three secretion proteins. The three components' association was ordered and substrate binding was required for the formation of this multiprotein complex.
...
PMID:Protein secretion by Gram-negative bacterial ABC exporters--a review. 922 68

One of the strategies used by Gram-negative bacteria to secrete proteins across the two membranes which delimit the cells, is sec independent and dedicated to proteins lacking an N-terminal signal peptide. It depends on ABC protein-mediated exporters, which consist of three cell envelope proteins: two inner membrane proteins: an ATPase (the ABC protein), a membrane fusion protein (MFP) and an outer membrane polypeptide. Erwinia chrysanthemi metalloproteinases B and C, and Serratia marcescens hemoprotein HasA are secreted by such homologous pathways and interact with the ABC protein. Interaction between the ABC protein and its substrate has also been evidenced by studies on proteinase and HasA hybrid transporters obtained by combining components from each system. Association between hemoprotein HasA and the three exporter/secretion proteins was demonstrated by affinity chromatography on hemin agarose on which the substrate remained bound with the three secretion proteins. The three component association was ordered and substrate binding was required for the formation of this multiprotein complex.
...
PMID:Protein secretion by gram-negative bacterial ABC exporters. 924 59

The ATP-binding cassette (ABC) transporters belong to a large superfamily of proteins which share a common function and a common nucleotide-binding domain. The CvaB protein from Escherichia coli is a member of the bacterial ABC exporter subfamily and is essential for the export of the peptide antibiotic colicin V. Here we report that, surprisingly, the CvaB carboxyl-terminal nucleotide-binding domain (BCTD) can be preferentially cross-linked to GTP but not to ATP at low temperatures. The cross-linking is Mg2+ and Mn2+ dependent. However, BCTD possesses similar GTPase and ATPase activities at 37 degrees C, with the same kinetic parameters and with similar responses to inhibitors. Moreover, a point mutation (D654H) in CvaB that completely abolishes colicin V secretion severely impairs both GTPase and ATPase activities in the corresponding BCTD, indicating that the two activities are from the same enzyme. Interestingly, hydrolysis activity of ATP is much more cold sensitive than that of GTP: BCTD possesses mainly GTP hydrolysis activity at 10 degrees C, consistent with the cross-linking results. These findings suggest a novel mechanism for an ABC protein-mediated transport with specificity for GTP hydrolysis.
...
PMID:When an ATPase is not an ATPase: at low temperatures the C-terminal domain of the ABC transporter CvaB is a GTPase. 951 99

Many membrane proteins that belong to the ATP-binding cassette (ABC) superfamily are clinically important, including the cystic fibrosis transmembrane conductance regulator, the sulphonylurea receptor and P-glycoprotein (multidrug resistance gene product; MDR1). These proteins contain two multispanning transmembrane domains, each followed by one nucleotide-binding domain (NBD) and a linker region distal to the first NBD. ATP hydrolysis by the NBDs is critical for ABC protein function; the linker region seems to have a regulatory role. Previous attempts to express soluble NBDs and/or linker regions without detergent solubilization, or to purify NBDs at high yields as soluble fusion proteins, have been unsuccessful. Here we present a system for the expression in Escherichia coli of the first NBD of MDR1 followed by its linker region (NBD1MLD). A comparison of the expressions of NBD1MLD fused to glutathione S-transferase, thioredoxin and maltose-binding protein (MBP) shows that a high level of expression in the soluble fraction (approx. 8% of total E. coli protein) can be achieved only for MBP-NBD1MLD. The addition of a proteolytic thrombin site just proximal to the N-terminal end of NBD1MLD allows the cleavage of NBD1MLD from MBP, which can be easily purified with retention of its ATPase activity. In summary, success was obtained only when using an MBP fusion protein vector containing a thrombin proteolytic site between MBP and NBD1MLD. The approach described here could be generally applicable to solving the problems of expression and purification of NBDs/linker regions of ABC proteins.
...
PMID:Expression and purification of the first nucleotide-binding domain and linker region of human multidrug resistance gene product: comparison of fusions to glutathione S-transferase, thioredoxin and maltose-binding protein. 993 1

The cysteine residues of the ABC protein MalK from Salmonella typhimurium maltose transport system (C40, C350, C360) were consecutively replaced by serines. Cys-less MalK was fully functional in maltose transport in vivo. Moreover, the activity of MalK as a repressor of other maltose-regulated genes was also retained. The absence of cysteine residues in the purified protein was verified by its failure to react with fluorescein-5-maleimide. In contrast to purified wild-type MalK, the ATPase activity of the C40S variant was insensitive to inhibition by N-ethylmaleimide.
...
PMID:A Cys-less variant of the bacterial ATP binding cassette protein MalK is functional in maltose transport and regulation. 1021 25

ATP-binding cassette (ABC) proteins transport a diverse collection of substrates. It is presumed that these proteins couple ATP hydrolysis to substrate transport, yet ATPase activity has been demonstrated for only a few. To provide direct evidence for such activity in Ste6p, the yeast ABC protein required for the export of a-factor mating pheromone, we established conditions for purification of Ste6p in biochemical quantities from both yeast and Sf9 insect cells. The basal ATPase activity of purified and reconstituted Ste6p (V(max) = 18 nmol/mg/min; K(m) for MgATP = 0.2 mm) compares favorably with several other ABC proteins and was inhibited by orthovanadate in a profile diagnostic of ABC transporters (apparent K(I) = 12 microm). Modest stimulation (approximately 40%) was observed upon the addition of a-factor either synthetic or in native form. We also used an 8-azido-[alpha-(32)P]ATP binding and vanadate-trapping assay to examine the behavior of wild-type Ste6p and two different double mutants (G392V/G1087V and G509D/G1193D) shown previously to be mating-deficient in vivo. Both mutants displayed a diminished ability to hydrolyze ATP, with the latter uncoupled from pheromone transport. We conclude that Ste6p catalyzes ATP hydrolysis coupled to a-factor transport, which in turn promotes mating.
...
PMID:The yeast a-factor transporter Ste6p, a member of the ABC superfamily, couples ATP hydrolysis to pheromone export. 1138 39

Members of the ATP binding cassette (ABC) superfamily are transmembrane proteins that are found in a variety of tissues which transport substances across cell membranes in an energy-dependent manner. The retina-specific ABC protein (ABCR) has been linked through genetic studies to a number of inherited visual disorders, including Stargardt macular degeneration and age-related macular degeneration (ARMD). Like other ABC transporters, ABCR is characterized by two nucleotide binding domains and two transmembrane domains. We have cloned and expressed the 522-amino acid (aa) N-terminal cytoplasmic region (aa 854-1375) of ABCR containing nucleotide binding domain 1 (NBD1) with a purification tag at its amino terminus. The expressed recombinant protein was found to be soluble and was purified using single-step affinity chromatography. The purified protein migrated as a 66 kDa protein on SDS-PAGE. Analysis of the ATP binding and hydrolysis properties of the NBD1 polypeptide demonstrated significant differences between NBD1 and NBD2 [Biswas, E. E., and Biswas, S. B. (2000) Biochemistry 39, 15879-15886]. NBD1 was active as an ATPase, and nucleotide inhibition studies suggested that nucleotide binding was not specific for ATP and all four ribonucleotides can compete for binding. Further analysis demonstrated that NBD1 is a general nucleotidase capable of hydrolysis of ATP, CTP, GTP, and UTP. In contrast, NBD2 is specific for adenosine nucleotides (ATP and dATP). NBD1 bound ATP with a higher affinity than NBD2 (K(mNBD1) = 200 microm vs K(mNBD2) = 631 microm) but was less efficient as an ATPase (V(maxNBD1) = 28.9 nmol min(-)(1) mg(-)(1) vs V(maxNBD2) = 144 nmol min(-)(1) mg(-)(1)). The binding efficiencies for CTP and GTP were comparable to that observed for ATP (K(mCTP) = 155 microm vs K(mGTP) = 183 microm), while that observed for UTP was decreased 2-fold (K(mUTP) = 436 microm). Thus, the nucleotide binding preference of NBD1 is as follows: CTP > GTP > ATP >> UTP. These studies demonstrate that NBD1 of ABCR is a general nucleotidase, whereas NBD2 is a specific ATPase.
...
PMID:Nucleotide binding domain 1 of the human retinal ABC transporter functions as a general ribonucleotidase. 1144 63

The B-subunit of phosphate-specific transporter (PstB) is an ABC protein. pstB was polymerase chain reaction-amplified from Mycobacterium tuberculosis and overexpressed in Escherichia coli. The overexpressed protein was found to be in inclusion bodies. The protein was solubilized using 1.5% N-lauroylsarcosine and was purified by gel permeation chromatography. The molecular mass of the protein was approximately 31 kDa. The eluted protein showed ATP-binding ability and exhibited ATPase activity. Among different nucleotide triphosphates, ATP was found to be the preferred substrate for M. tuberculosis PstB-ATPase. The study of the kinetics of ATP hydrolysis yielded K(m) of approximately 72 microm and V(max) of approximately 0.12 micromol/min/mg of protein. Divalent cation like manganese was inhibitory to the ATPase activity. Magnesium or calcium, on the other hand, had no influence on the functionality of the enzyme. The classical ATPase inhibitors like sodium azide, sodium vanadate, and N-ethylmaleimide were without any effect but an ATP analogue, 5'-p-fluorosulfonylbenzoyl adenosine, inhibited the ATPase function of the recombinant protein with a K(i) of approximately 0.40 mm. Furthermore, there was hardly any ATP hydrolyzing ability of the PstB as a result of mutation of the conserved aspartic acid residue to lysine in the Walker motif B, confirming the recombinant protein is an ATPase. Interestingly, analysis of the recombinant PstB revealed that it is a thermostable ATPase; thus, our results highlight for the first time the presence of such an enzyme in any mesophilic bacteria.
...
PMID:B-subunit of phosphate-specific transporter from Mycobacterium tuberculosis is a thermostable ATPase. 1156 22

X-linked adrenoleukodystrophy (X-ALD) is the most common peroxisomal disorder characterized by abnormal accumulation of saturated very long chain fatty acids in tissues and body fluids with predominance in brain white matter and adrenal cortex. The clinical phenotype is highly variable ranging from the severe childhood cerebral form to asymptomatic persons. The responsible ALD gene encodes the adrenoleukodystrophy protein (ALDP), a peroxisomal integral membrane protein that is a member of the ATP-binding cassette (ABC) transporter protein family. The patient gene mutations are heterogeneously distributed over the functional domains of ALDP. The extreme variability in clinical phenotype, even within one affected family, indicates that besides the ALD gene mutations other factors strongly influence the clinical phenotype. To understand the cell biology and function of mammalian peroxisomal ABC transporters and to determine their role in the pathogenesis of X-ALD we developed a system for expressing functional ABC protein domains in fusion with the maltose binding protein. Wild type and mutant fusion proteins of the nucleotide-binding fold were overexpressed, purified, and characterized by photoaffinity labeling with 8-azido ATP or 8-azido GTP and a coupled ATP regenerating enzyme assay for ATPase activity. Our studies provide evidence that peroxisomal ABC transporters utilize ATP to become a functional transporter and that ALD gene mutations alter peroxisomal transport function. The established disease model will be used further to study the influence of possible disease modifier proteins on ALDP function.
...
PMID:Functional characterization of the adrenoleukodystrophy protein (ALDP) and disease pathogenesis. 1253 Jun 90

1 2 3 Next >>