scholarly journals Reaction mechanism of the gastric H+ + K+-dependent ATPase. Effects of inhibitor and pH

1987 ◽  
Vol 241 (1) ◽  
pp. 175-181 ◽  
Author(s):  
J Nandi ◽  
T K Ray
Keyword(s):  
Reaction Mechanism ◽  
Atp Hydrolysis ◽  
Dependent Effect ◽  
Dramatic Effect ◽  
Ph Values ◽  
Dependent Atpase ◽  
P Concentration ◽  
Atpase Reaction ◽  
Enzyme Turnover ◽  
Hydrolysis Of

The effect of nolinium bromide [2-(3,4-dichlorophenylamino)quinolizium bromide], which acts as a K+ antagonist in the gastric H+ +K+-dependent ATPase reaction, was investigated at the level of 32P-labelled intermediates of the gastric ATPase reaction. A concentration-dependent effect of nolinium bromide was observed on the concentrations of phosphorylated intermediates. At low (up to 50 microM) concentrations the drug did not interfere with the concentrations of intermediates but exhibited a competition with K+ at the level of both 32P-labelled intermediates and hydrolysis of ATP at pH 7.0. Similar competition was noted in the H+ +K+-dependent ATPase reaction. Low nolinium bromide concentrations also drastically slowed the enzyme turnover. The concentrations of the intermediates were lowered appreciably between 50 microM- and 100 microM-nolinium bromide without affecting the ATP hydrolysis, and the effects were independent of pH. Similar to the effects at pH 7.0, the drug also exhibited competition with K+ in lowering the E approximately P concentration at pH 5.0. A dramatic effect of pH on the K+-sensitivity as well as on turnover of the 32P-labelled intermediates was observed. Although the concentrations of intermediates remained nearly unaltered at various pH values, the K+-stimulated hydrolysis of ATP showed an optimum at pH 7.0 with sharp declines at pH 5 and 8. The data suggest a critical involvement of H+ in the conversion of the K+-insensitive E1 approximately P into the K+-sensitive E2 approximately P form of the enzyme. Nolinium bromide appears to function as a K+ analogue and seems to block the entry of K+ at the K X E2 step, thereby interfering with the enzyme turnover.

scholarly journals Dissociation of clathrin coats coupled to the hydrolysis of ATP: role of an uncoating ATPase.

1984 ◽  
Vol 99 (2) ◽  
pp. 734-741 ◽  
Author(s):  
W A Braell ◽  
D M Schlossman ◽  
S L Schmid ◽  
J E Rothman
Keyword(s):  
Atpase Activity ◽  
Atp Hydrolysis ◽  
Low Ph ◽  
Coated Vesicles ◽  
Magnesium Concentration ◽  
Cross Linking ◽  
Dependent Atpase ◽  
Event Triggering ◽  
Hydrolysis Of

ATP hydrolysis was used to power the enzymatic release of clathrin from coated vesicles. The 70,000-mol-wt protein, purified on the basis of its ATP-dependent ability to disassemble clathrin cages, was found to possess a clathrin-dependent ATPase activity. Hydrolysis was specific for ATP; neither dATP nor other ribonucleotide triphosphates would either substitute for ATP or inhibit the hydrolysis of ATP in the presence of clathrin cages. The ATPase activity is elicited by clathrin in the form of assembled cages, but not by clathrin trimers, the product of cage disassembly. The 70,000-mol-wt polypeptide, but not clathrin, was labeled by ATP in photochemical cross-linking, indicating that the hydrolytic site for ATP resides on the uncoating protein. Conditions of low pH or high magnesium concentration uncouple ATP hydrolysis from clathrin release, as ATP is hydrolyzed although essentially no clathrin is released. This suggests that the recognition event triggering clathrin-dependent ATP hydrolysis occurs in the absence of clathrin release, and presumably precedes such release.

scholarly journals The basal Mg2+-dependent ATPase activity is not part of the (H++K+)-transporting ATPase reaction cycle

1990 ◽  
Vol 267 (3) ◽  
pp. 565-572 ◽  
Author(s):  
H T W M Van der Hijden ◽  
S Kramer-Schmitt ◽  
E Grell ◽  
J J H H M de Pont
Keyword(s):  
Gastric Mucosa ◽  
Atpase Activity ◽  
Hydrolytic Activity ◽  
Reaction Cycle ◽  
Dependent Atpase ◽  
Atpase Reaction ◽  
Phosphorylation Reaction ◽  
Rate Of Hydrolysis ◽  
Hydrolysis Of

Purified gastric (H(+)+K+)-transporting ATPase [(H(+)+K+)-ATPase] from the parietal cells always contains a certain amount of basal Mg2(+)-dependent ATPase (Mg2(+)-ATPase) activity. lin-Benzo-ATP (the prefix lin refers to the linear disposition of the pyrimidine, benzene and imidazole rings in the ‘stretched-out’ version of the adenine nucleus), an ATP analogue with a benzene ring formally inserted between the two rings composing the adenosine moiety, is an interesting substrate not only because of its fluorescent behaviour, but also because of its geometric properties. lin-Benzo-ATP was used in the present study to elucidate the possible role of the basal Mg2(+)-ATPase activity in the gastric (H(+)+K+)-ATPase preparation. With lin-benzo-ATP the enzyme can be phosphorylated such that a conventional phosphoenzyme intermediate is formed. The rate of the phosphorylation reaction, however, is so low that this reaction with subsequent dephosphorylation cannot account for the much higher rate of hydrolysis of lin-benzo-ATP by the enzyme. This apparent kinetic discrepancy indicates that lin-benzo-ATP is not a substrate for the (H(+)+K+)-ATPase reaction cycle. This idea was further supported by the finding that lin-benzo-ATP was unable to catalyse H+ uptake by gastric-mucosa vesicles. The breakdown of lin-benzo-ATP by the (H(+)+K+)-ATPase preparation must be due to a hydrolytic activity which is not involved in the ion-transporting reaction cycle of the (H(+)+K+)-ATPase itself. Comparison of the basal Mg2(+)-ATPase activity (with ATP as substrate) with the hydrolytic activity of (H(+)+K+)-ATPase using lin-benzo-ATP as substrate and the effect of the inhibitors omeprazole and SCH 28080 support the notion that lin-benzo-ATP is not hydrolysed by the (H(+)+K+)-ATPase, but by the basal Mg2(+)-ATPase, and that the activity of the latter enzyme is not involved in the (H(+)+K+)-transporting reaction cycle (according to the Albers-Post formalism) of (H(+)+K+)-ATPase.

scholarly journals Identifying the catalytic residue of the ATPase reaction of DNA gyrase

1993 ◽  
Vol 90 (23) ◽  
pp. 11232-11236 ◽  
Author(s):  
A P Jackson ◽  
A Maxwell
Keyword(s):  
Dna Cleavage ◽  
Atp Hydrolysis ◽  
Dna Gyrase ◽  
Site Directed Mutagenesis ◽  
Catalytic Residue ◽  
Wild Type ◽  
Mutant Proteins ◽  
General Base ◽  
Atpase Reaction ◽  
Hydrolysis Of

We propose a mechanism for the hydrolysis of ATP by the DNA gyrase B protein in which Glu42 acts as a general base and His38 has a role in aligning and polarizing the glutamate residue. We have tested this mechanism by site-directed mutagenesis, converting Glu42 to Ala, Asp, and Gln, and His38 to Ala. In the presence of wild-type A protein, B proteins bearing the mutations Ala42 and Gln42 show no detectable supercoiling or ATPase activities, while Asp42 and Ala38 proteins have reduced activities. In the DNA cleavage and relaxation reactions of gyrase, which do not require ATP hydrolysis, wild-type and mutant proteins have similar activities. When the 43-kDa N-terminal fragment of the gyrase B protein (which hydrolyzes ATP) contained the mutations Ala42 or Gln42, ATP was bound but not hydrolyzed, supporting the idea that Glu42 is involved in hydrolysis but not nucleotide binding.

scholarly journals β-Glucosidase Activity of Lactiplantibacillus plantarum UNQLp 11 in Different Malolactic Fermentations Conditions: Effect of pH and Ethanol Content

Fermentation ◽  
2021 ◽  
Vol 7 (1) ◽  
pp. 22
Author(s):  
Natalia S. Brizuela ◽  
Marina Arnez-Arancibia ◽  
Liliana Semorile ◽  
María Ángeles Pozo-Bayón ◽  
Bárbara M. Bravo-Ferrada ◽  
...  
Keyword(s):  
Pinot Noir ◽  
Gas Chromatography Mass Spectrometry ◽  
Red Wines ◽  
Ph Values ◽  
Glucosidase Activity ◽  
Sorptive Extraction ◽  
Ethanol Content ◽  
Volatile Precursors ◽  
Hydrolysis Of ◽  
High Ethanol

Lactiplantibacillus plantarum strain UNQLp 11 is a lactic acid bacterium with the potential to carry out malolactic fermentation (MLF) in red wines. Recently, the complete genome of UNQLp 11 was sequenced and this strain possesses four loci of the enzyme β-glucosidase. In order to demonstrate that these glucosidase enzymes could be functional under harsh wine conditions, we evaluated the hydrolysis of p-nitrophenyl-β-D-glucopyranoside (p-NPG) in synthetic wine with different ethanol contents (0%, 12%, and 14% v/v) and at different pH values (3.2, 3.5, and 3.8). Then, the hydrolysis of precursor n-octyl β-D-glucopyranoside was analyzed in sterile Pinot Noir wine (containing 14.5% v/v of ethanol, at different pH values) by headspace sorptive extraction gas chromatography-mass spectrometry (HSSE-GC/MS). The hydrolysis of p-NPG showed that β-glucosidase activity is very susceptible to low pH but induced in the presence of high ethanol content. Furthermore, UNQLp 11 was able to release the glycosilated precursor n-octyl, during MLF to a greater extent than a commercial enzyme. In conclusion, UNQLp 11 could improve the aromatic profile of the wine by the release of volatile precursors during MLF.

Preparation and structural analysis of (±)-threo-ritalinic acid

2013 ◽  
Vol 69 (11) ◽  
pp. 1225-1228 ◽  
Author(s):  
Sara Wyss ◽  
Irmgard A. Werner ◽  
W. Bernd Schweizer ◽  
Simon M. Ametamey ◽  
Selena Milicevic Sephton
Keyword(s):  
Methyl Ester ◽  
Free Acid ◽  
Nmr Analysis ◽  
Intermolecular Hydrogen Bonds ◽  
X Ray ◽  
X Ray Crystallography ◽  
Ph Values ◽  
Ritalinic Acid ◽  
Methyl Phenidate ◽  
Hydrolysis Of

Hydrolysis of the methyl ester (±)-threo-methyl phenidate afforded the free acid in 40% yield,viz.(±)-threo-ritalinic acid, C13H17NO2. Hydrolysis and subsequent crystallization were accomplished at pH values between 5 and 7 to yield colourless prisms which were analysed by X-ray crystallography. Crystals of (±)-threo-ritalinic acid belong to theP21/nspace group and form intermolecular hydrogen bonds. An antiperiplanar disposition of the H atoms of the (HOOC—)CH—CHpygroup (py is pyridine) was found in both the solid (diffraction analysis) and solution state (NMR analysis). It was also determined that (±)-threo-ritalinic acid conforms to the minimization of negativegauche+–gauche−interactions.

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