EC:3.6.3.1 - FACTA Search

Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: EC:3.6.3.1 (Mg2+-ATPase)
1,484 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Shigella is an important human pathogen. It is generally agreed that Shigella and Escherichia coli constitute a single species; the only exception is Shigella boydii type 13, which is more distantly related to E. coli and other Shigella forms and seems to represent another species. This gives S. boydii type 13 an important status in evolution. O antigen is the polysaccharide part of the lipopolysaccharide in the outer membrane of gram-negative bacteria and plays an important role in pathogenicity. The chemical structure and genetic organization of the S. boydii type 13 O antigen were investigated. The O polysaccharide was found to be acid labile owing to the presence of a glycosyl phosphate linkage in the main chain. The structure of the linear pentasaccharide phosphate repeating unit (O unit) was established by nuclear magnetic resonance spectroscopy, including two-dimensional COSY, TOCSY, ROESY, and H-detected 1H, 13C and 1H, 31P HMQC experiments, along with chemical methods. The O antigen gene cluster of S. boydii type 13 was located and sequenced. Genes for synthesis of UDP-2-acetamido-2,6-dideoxy-L-glucose and genes that encode putative sugar transferases, O unit flippase, and O antigen polymerase were identified. Seven genes were found to be specific to S. boydii type 13. The S. boydii type 13 O antigen gene cluster has higher levels of sequence similarity with Vibrio cholerae gene clusters and may be evolutionarily related to these gene clusters.
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PMID:Structural and genetic characterization of the Shigella boydii type 13 O antigen. 1470 7

The aim of this study was to evaluate whether the addition of the antioxidants L-cysteine (Cys) or the reduced glutathione (GSH) could reverse the alterations of brain total antioxidant status (TAS) and the modulated activities of the enzymes (Na+,K+)-ATPase, and Mg2+-ATPase in adult or aged rat brain homogenates induced by galactosemia in vitro. Mixture A [mix. A: galactose-1-phosphate (Gal-1-P, 2 mM) plus galactitol (Galtol, 2 mM) plus galactose (Gal, 4 mM) = classical galactosemia] or mixture B [mix. B: Galtol (2 mM) plus Gal (1 mM) = galactokinase deficiency galactosemia] were preincubated in the presence or absence of Cys (0.83 mM) or GSH (0.83 mM) with adult or aged brain homogenates at 37 degrees C for 1 h. TAS and the enzyme activities were determined spectrophotometrically. Mix. A or mix. B preincubation with the adult brain resulted in a significant (Na+,K+)-ATPase inhibition (-30%) and a Mg2+-ATPase stimulation (+300% and +33%, respectively), whereas lower modifications of the enzyme activities (p < 0.001) were found in the aged brain. Gal mixtures decreased TAS by 40% (p < 0.001) and by 20% (p < 0.01) in adult and aged samples, respectively. The antioxidants significantly increased TAS resulting in the reversion of (Na+,K+)-ATPase inhibition and Mg2+-ATPase stimulation by mix. B only. The inhibitory effect of Gal and its derivatives on brain (Na+,K+)-ATPase and their stimulatory effect on Mg2+-ATPase are being decreased with age, probably due to the producion of free radicals. Cys and GSH increased TAS resulting in a reversion of the inhibited (Na+,K+)-ATPase in both models of the in vitro galactosemia and the stimulated Mg2+-ATPase in galactokinase deficiency galactosemia only.
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PMID:The protective effect of L-cysteine and glutathione on the adult and aged rat brain (Na+,K+)-ATPase and Mg2+-ATPase activities in galactosemia in vitro. 1591 54

The comparative research of catalytic properties of two ATP-hydrolases of the sarcolemma of the smooth muscle of the uterus--ouabaine-sensitive Na+,K+-ATPase and ouabaine-resistent Mg2+-ATPase is carried out. The specific enzymatic activity of Na+,K+-ATPase and Mg2+-ATPase makes 10.2 +/- 0.7 and 18.1 +/- 1.2 mmol P/mg of protein for 1 hour, accordingly. The action of ouabaine on Na+,K+-ATPase is characterized by magnitude of quotient of inhibition I0.5=21.3 +/- 1.5 mkM. Processing of the sarcolemma fraction by digitonin in concentrations 0.001 +/- 0.1% promotes an activation of Na+,K+ATPase and Mg2+- ATPase, and in the first case much more efficiently than in the second. The kinetics of accumulation of the product of ATP-hydrolase reactions of phosphate satisfies the laws of the zero order reaction (incubation time--about 10 min). Na+,K+-ATPase is highly specific concerning the univalent cations--Na+, K+, however Li+ can partially substitute K+. Activity of Mg2+-ATPase is not specific concerning univalent cations. The dependence of Na+,K+-ATPase activity on pH in the range of 6.0-8.0 is characterized by the bell-shaped curve, at the same time the linear dependence on pH is peculiar to Mg2+-ATPase. The functioning of Na+,K+-ATPase is provided only by ATP, in the case of Mg2+-ATPase ATP can be successfully replaced with other nucleotidetriphosphates. It is supposed that the obtained experimental data can be beneficial in further research of membranous mechanisms underlying the cation exchange in the smooth muscles, in particular when studying the role of the plasma membrane in the maintenance of electromechanical coupling in them, and also in the regulation of ionic homeostasis in myocytes.
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PMID:[Comparative study of properties of Na+, K+-ATPase and Mg2+-ATPase of the myometrium plasma membrane]. 1633 35

Francisella tularensis and related intracellular pathogens synthesize lipid A molecules that differ from their Escherichia coli counterparts. Although a functional orthologue of lpxK, the gene encoding the lipid A 4'-kinase, is present in Francisella, no 4'-phosphate moiety is attached to Francisella lipid A. We now demonstrate that a membrane-bound phosphatase present in Francisella novicida U112 selectively removes the 4'-phosphate residue from tetra- and pentaacylated lipid A molecules. A clone that expresses the F. novicida 4'-phosphatase was identified by assaying lysates of E. coli colonies, harboring members of an F. novicida genomic DNA library, for 4'-phosphatase activity. Sequencing of a 2.5-kb F. novicida DNA insert from an active clone located the structural gene for the 4'-phosphatase, designated lpxF. It encodes a protein of 222 amino acid residues with six predicted membrane-spanning segments. Rhizobium leguminosarum and Rhizobium etli contain functional lpxF orthologues, consistent with their lipid A structures. When F. novicida LpxF is expressed in an E. coli LpxM mutant, a strain that synthesizes pentaacylated lipid A, over 90% of the lipid A molecules are dephosphorylated at the 4'-position. Expression of LpxF in wild-type E. coli has no effect, because wild-type hexaacylated lipid A is not a substrate. However, newly synthesized lipid A is not dephosphorylated in LpxM mutants by LpxF when the MsbA flippase is inactivated, indicating that LpxF faces the outer surface of the inner membrane. The availability of the lpxF gene will facilitate re-engineering lipid A structures in diverse bacteria.
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PMID:Expression cloning and periplasmic orientation of the Francisella novicida lipid A 4'-phosphatase LpxF. 1646

Active extrusion of drugs from the cell interior by primary and secondary efflux pumps is an essential mechanism underlying the phenomenon of multidrug resistance. The first discovered and best characterized primary efflux pump found in humans is the ABC transporter P-glycoprotein (PGP), which shows very broad substrate specificity. Many of these molecules are lipophilic, and binding most likely takes place within the membrane. PGP could either translocate them from the inner to the outer leaflet (flippase) or extrude them from the membrane into the extracellular environment (hydrophobic vacuum cleaner). Recognition and binding of such a diverse set of substrates must be associated with a preferred membrane location, determined by molecular properties and lipid interactions. Therefore, a systematic study of the interaction among seven PGP substrates (phenazine, doxorubicin, cephalexin, ampicillin, chloramphenicol, penicillin G, and quercetin) and two modulators (quinidine and nicardipine) and 1,2-dimyristoyl-sn-glycero-3-phosphocholine (DMPC) model membranes is reported here. The location profile of these molecules across the membrane was determined by (1)H NOESY MAS NMR based on (1)H-(1)H cross-peaks between their aromatic fingerprint region and lipid resonances. Although structurally rather diverse, all tested substances are found to have their highest concentration between the phosphate of the lipid headgroup and the upper segments of the lipid hydrocarbon chains. Our findings are consistent with PGP substrate and modulator binding from the membrane interface region.
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PMID:Localization of multidrug transporter substrates within model membranes. 1668 93

Extracellular polysaccharides of many bacteria are synthesized by the Wzy polymerase-dependent mechanism, where long-chain polymers are assembled from undecaprenyl-phosphate-linked repeat units on the outer face of the cytoplasmic membrane. In gram-positive bacteria, Wzy-dependent capsules remain largely cell associated via membrane and peptidoglycan linkages. Like many Wzy-dependent capsules, the Streptococcus pneumoniae serotype 2 capsule is branched. In this study, we found that deletions of cps2K, cps2J, or cps2H, which encode a UDP-glucose dehydrogenase necessary for side chain synthesis, the putative Wzx transporter (flippase), and the putative Wzy polymerase, respectively, were obtained only in the presence of suppressor mutations. Most of the suppressor mutations were in cps2E, which encodes the initiating glycosyltransferase for capsule synthesis. The cps2K mutants containing the suppressor mutations produced low levels of high-molecular-weight polymer that was detected only in membrane fractions. cps2K-repaired mutants exhibited only modest increases in capsule production due to the effect of the secondary mutation, but capsule was detectable in both membrane and cell wall fractions. Lethality of the cps2K, cps2J, and cps2H mutations was likely due to sequestration of undecaprenyl-phosphate in the capsule pathway and either preclusion of its turnover for utilization in essential pathways or destabilization of the membrane due to an accumulation of lipid-linked intermediates. The results demonstrate that proper polymer assembly requires not only a functional transporter and polymerase but also complete repeat units. A central role for the initiating glycosyltransferase in controlling capsule synthesis is also suggested.
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PMID:Mutations blocking side chain assembly, polymerization, or transport of a Wzy-dependent Streptococcus pneumoniae capsule are lethal in the absence of suppressor mutations and can affect polymer transfer to the cell wall. 1732 16

Modification of lipid A with the 4-amino-4-deoxy-L-arabinose (L-Ara4N) moiety is required for resistance to polymyxin and cationic antimicrobial peptides in Escherichia coli and Salmonella typhimurium. An operon of seven genes (designated pmrHFIJKLM in S. typhimurium), which is regulated by the PmrA transcription factor and is also present in E. coli, is necessary for the maintenance of polymyxin resistance. We previously elucidated the roles of pmrHFIJK in the biosynthesis and attachment of L-Ara4N to lipid A and renamed these genes arn-BCADT, respectively. We now propose functions for the last two genes of the operon, pmrL and pmrM. Chromosomal inactivation of each of these genes in an E. coli pmrA(c) parent switched its phenotype from polymyxin-resistant to polymyxin-sensitive. Lipid A was no longer modified with L-Ara4N, even though the levels of the lipid-linked donor of the L-Ara4N moiety, undecaprenyl phosphate-alpha-L-Ara4N, were not reduced in the mutants. However, the undecaprenyl phosphate-alpha-L-Ara4N present in the mutants was less concentrated on the periplasmic surface of the inner membrane, as judged by 4-5-fold reduced labeling with the inner membrane-impermeable amine reagent N-hydroxysulfosuccin-imidobiotin. In an arnT mutant of the same pmrA(c) parent, which lacks the enzyme that transfers the L-Ara4N unit to lipid A but retains the same high levels of undecaprenyl phosphate-alpha-L-Ara4N as the parent, N-hydroxysulfosuccinimidobiotin labeling was not reduced. These results implicate pmrL and pmrM, but not arnT, in transporting undecaprenyl phosphate-alpha-L-Ara4N across the inner membrane. PmrM and PmrL, now renamed ArnE and ArnF because of their involvement in L-Ara4N modification of lipid A, may be subunits of an undecaprenyl phosphate-alpha-L-Ara4N flippase.
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PMID:An undecaprenyl phosphate-aminoarabinose flippase required for polymyxin resistance in Escherichia coli. 1792 92

One-third of the lipid A found in the Escherichia coli outer membrane contains an unsubstituted diphosphate unit at position 1 (lipid A 1-diphosphate). We now report an inner membrane enzyme, LpxT (YeiU), which specifically transfers a phosphate group to lipid A, forming the 1-diphosphate species. (32)P-labelled lipid A obtained from lpxT mutants do not produce lipid A 1-diphosphate. In vitro assays with Kdo(2)-[4'-(32)P]lipid A as the acceptor shows that LpxT uses undecaprenyl pyrophosphate as the substrate donor. Inhibition of lipid A 1-diphosphate formation in wild-type bacteria was demonstrated by sequestering undecaprenyl pyrophosphate with the cyclic polypeptide antibiotic bacitracin, providing evidence that undecaprenyl pyrophosphate serves as the donor substrate within whole bacteria. LpxT-catalysed phosphorylation is dependent upon transport of lipid A across the inner membrane by MsbA, a lipid A flippase, indicating a periplasmic active site. In conclusion, we demonstrate a novel pathway in the periplasmic modification of lipid A that is directly linked to the synthesis of undecaprenyl phosphate, an essential carrier lipid required for the synthesis of various bacterial polymers, such as peptidoglycan.
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PMID:Periplasmic phosphorylation of lipid A is linked to the synthesis of undecaprenyl phosphate. 1808 87

Lipopolysaccharide (LPS), a major component of the outer membranes of gram-negative bacteria, is composed of a polysaccharide chain attached to a lipid A base that contains a disaccharide headgroup with two negative phosphate groups and at least four acyl chains. Lipid A is an essential component of the membranes of a large number of bacteria and is also a substrate for a wide variety of proteins. Here we report the synthesis of a nitroxide spin-labeled lipid A, characterize its localization at the membrane bilayer surface, and demonstrate that it remains a viable substrate for the Escherichia coli lipid flippase MsbA.
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PMID:Spin-labeled lipid A. 1876 Feb 59

The essential role for phosphatidylinositol-4-phosphate (PtdIns(4)P) in vesicle-mediated protein transport from the trans-Golgi network (TGN) was first described in the budding yeast Saccharomyces cerevisiae. However, the identity of downstream effectors of PtdIns(4)P in this system has been elusive. Here, we show that Drs2p, a type IV P-type ATPase required for phospholipid translocase (flippase) activity and transport vesicle budding from the TGN, is an effector of PtdIns(4)P. Drs2p-dependent flip of a fluorescent phosphatidylserine analogue across purified TGN membranes requires synthesis of PtdIns(4)P by the phosphatidylinositol-4-kinase (PI(4)K) Pik1p. PtdIns(4)P binds to a regulatory domain in the C-terminal tail of Drs2p that has homology to a split PH domain and is required for Drs2p activity. In addition, basic residues required for phosphoinositide binding overlap a previously mapped binding site for the ArfGEF Gea2p. ArfGEF binding to this C-terminal domain also stimulates flippase activity in TGN membrane preparations. These interactions suggest the presence of a coincidence detection system used to activate phospholipid translocation at sites of vesicle formation.
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PMID:Regulation of a Golgi flippase by phosphoinositides and an ArfGEF. 1989 64

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