ATPase isolation

Effects of Allelochemlcals on ATPases. Several flavonoid compounds inhibit ATPase activity that is associated with mineral absorption. Phloretin and quercetin (100 pM) inhibited the plasma membrane ATPase Isolated from oat roots (33). The naphthoquinone juglone was inhibitory also. However, neither ferulic acid nor salicylic acid inhibited the ATPase. Additional research has shown that even at 10 mM salicylic acid inhibits ATPase activity only 10-15% (49). This lack of activity by salicylic acid was substantiated with the plasma membrane ATPase Isolated from Neurospora crassa (50) however, the flavonols fisetln, morin, myricetin, quercetin, and rutin were inhibitory to the Neurospora ATPase. Flavonoids inhibited the transport ATPases of several animal systems also (51-53). Thus, it appears that flavonoids but not phenolic acids might affect mineral transport by inhibiting ATPase enzymes. 

Boron also appears to be involved in redox metabolism in cell membranes. Boron deficiency was shown to inhibit membrane H -ATPase isolated from plant roots, and H -ATPase-associated proton secretion is decreased in boron-deficient cell cultures [71]. Other studies show an effect of boron on membrane electron transport reactions and the stimulation of plasma reduced nicotinamide adenine dinucleotide (NADH) oxidase upon addition of boron to cell cultures [72, 73]. NADH oxidase in plasma membrane is believed to play a role in the reduction of ascorbate free radical to ascorbate [74]. One theory proposes that, by stimulating NADH oxidase to keep ascorbate reduced at the cell wall-membrane interface, the presence of boron is important in... 

H -ATP-synthase was postulated in view of the evidence that illumination [58,59], respiration [60] or artificially imposed ApH of the right direction (inside alkaline) [61] can increase the ATP level in halobacterial cells. This process was shown to be sensitive to A-ethylmaleimide, nitrate, A, A -dicyclohexylcarbodiimide (DCCD) and 7-chloro-4-nitrobenzo-2-oxa-l,3-diazole (NBD-Cl), and resistant to vanadate and azide. The same inhibitor pattern was found to be inherent in 350 kDa ATPase isolated from H. halobium[63] and H. saccharovorum [64,65],... 

An ATPase isolated from H. salinarium (halobium) superficially resembles the enzyme from H. saccharovorum. The purified enzyme (Mr 320 000) is composed of two subunits (Mr 86 000 and 64 000) but there is no evidence that other subunits are associated with the enzyme [25]. The purified enzyme is most active when assayed in the presence of 2M (NH4)2S04 and is about twice as active when assayed in the presence of 1.5 M Na2S03. Little if any activity is detected when the enzyme is assayed in the presence of 4M NaCl or KCl. ATPase activity is not affected by azide (1 mM) but is inhibited by NEM (1 mM), DCCD (300 pM), and NBD-Cl (500 p,M). The inhibition by NBD-Cl is antagonized by ADP. The enzyme from H. salinarium (halobium) rapidly loses activity when incubated at room temperature in absence of NaCl and slowly... 

Elander B, Fellenius E, Leth R, Olbe L, Wallmark B (1986) Inhibitory action of omeprazole on acid formation in gastric glands and on H, K -ATPase isolated from human gastric mucosa. Scand J Gastroenterol 21 268-272... 

ATPase inhibitor. In such patients, inhibition of the sodium pump in the cells lining the blood vessel wall results in accumulation of sodium and calcium in these cells and the narrowing of the vessels to create hypertension. An 8-year study aimed at the isolation and identification of the agent responsible for these effects by researchers at the University of Maryland Medical School and the Upjohn Laboratories in Michigan recently yielded a surprising result. Mass spectrometric analysis of compounds isolated from many hundreds of gallons of blood plasma has revealed that the hypertensive agent is ouabain itself or a closely related molecule ... 

The cytosolic dyneins bear many similarities to axonemal dynein. The protein isolated from C. elegans includes a heavy chain with a molecular mass of approximately 400 kD, as well as smaller peptides with molecular mass ranging from 53 kD to 74 kD. The protein possesses a microtubule-activated ATPase... 

The mitochondrial complex that carries out ATP synthesis is called ATP synthase or sometimes FjFo-ATPase (for the reverse reaction it catalyzes). ATP synthase was observed in early electron micrographs of submitochondrial particles (prepared by sonication of inner membrane preparations) as round, 8.5-nm-diameter projections or particles on the inner membrane (Figure 21.23). In micrographs of native mitochondria, the projections appear on the matrixfacing surface of the inner membrane. Mild agitation removes the particles from isolated membrane preparations, and the isolated spherical particles catalyze ATP hydrolysis, the reverse reaction of the ATP synthase. Stripped of these particles, the membranes can still carry out electron transfer but cannot synthesize ATP. In one of the first reconstitution experiments with membrane proteins, Efraim Racker showed that adding the particles back to stripped membranes restored electron transfer-dependent ATP synthesis. 

Synaptic vesicles isolated from brain exhibit four distinct vesicular neurotransmitter transport activities one for monoamines, a second for acetylcholine, a third for the inhibitory neurotransmitters GABA and glycine, and a fourth for glutamate [1], Unlike Na+-dependent plasma membrane transporters, the vesicular activities couple to a proton electrochemical gradient (A. lh+) across the vesicle membrane generated by the vacuolar H+-ATPase ( vacuolar type proton translocating ATPase). Although all of the vesicular transport systems rely on ApH+, the relative dependence on the chemical and electrical components varies (Fig. 1). The... 

Definition of Ej and E2 eonformations of the a subunit of Na,K-ATPase involves identification of cleavage points in the protein as well as association of cleavage with different rates of inactivation of Na,K-ATPase and K-phosphatase activities [104,105]. In the Ei form of Na,K-ATPase the cleavage patterns of the two serine proteases are clearly distinct. Chymotrypsin cleaves at Leu (C3), Fig. 3A, and both Na,K-ATPase and K-phosphatase are inactivated in a monoexponential pattern [33,106]. Trypsin cleaves the E form rapidly at Lys ° (T2) and more slowly at Arg (T3) to produce the characteristie biphasic pattern of inactivation. Localization of these splits was determined by sequencing N-termini of fragments after isolation on high resolution gel filtration columns [107]. 

Hall et al. [62] identified in a separate study the same glycoprotein in H,K-ATPase vesicles isolated from porcine gastric mucosa. A stoichiometric ratio of 1.2 1.0 was found for the deglycosylated protein (35 kDa)/catalytic 94-kDa protein. Furthermore, compelling evidence that this glycoprotein is the H,K-ATPase p subunit was provided by N-terminal sequence analysis of three protease V8-obtained peptides of the 35-kDa core protein. These peptides showed 30% and 45% homology with the Na,K-ATPase pi and pi subunit, respectively. 

With the use of oligonucleotide probes based on the amino acid sequences of these protease V8-obtained peptides and of cyanogen bromide fragments of the porcine H,K-ATPase P subunit, cDNA clones for the rat [12,25] and rabbit [74] H,K-ATPase P subunit were then isolated. 

SERCA-type -ATPases from non-mammalian cells (SERCAMED) Sequences of SERCA-type Ca -ATPases were also obtained from Plasmodium yoelii [68], Anemia [69] and Drosophila [70], These enzymes are similar in size to the SERCAl- and SERCA2a-type Ca -ATPases from mammalian muscles, but based on their N- and C-terminal sequences they represent a distinct group. In spite of the wide philogenetic variations between them they all share a common N-term-inal sequence (MED) that differs from mammalian enzymes. None of the corresponding proteins were isolated and characterized. 

The first Ca -ATPase clones were isolated by probing cDNA libraries with radiolabeled synthetic oligonucleotides [42] that represented an established amino acid sequence ((Trp-) Phe Met Tyr Ala) in the fast-twitch skeletal muscle... 

Thermolysin acts simultaneously at several sites on the Ca -ATPase without accumulation of large fragments this property proved useful in the sequence analysis of the Ca -ATPase [78,79,82,83], and in the isolation of SH-group-containing peptides [257]. Small fragments also accumulate after treatment of sarcoplasmic reticulum with subtilisin [256]. 

Reaction of purified Ca " -ATPase with 0.3 mM NBD-Cl in the presence of 1 mM AMP-PNP and 1 mM CaCl2 caused inhibition of ATPase activity with the incorporation of 2= 15 nmol NBD-Cl per mg protein [335]. The inhibition was attributed to the binding of 7-8 nmol NBD-Cl/mg enzyme protein, corresponding to = 1 mol NBD-Cl per mol ATPase. The NBD-labeled enzyme was digested with pepsin and several NBD-labeled peptides were isolated [335]. All peptides contained the Gly-X (Cys) sequence that occurs only in one place in the Ca -ATPase, i.e., at Gly343-Cys344. Therefore NBD-Cl reacts with the same cysteine 344 residue that is also modified by maleimide derivatives [319]. The NBD modified enzyme had only 5-10% of the ATPase activity of the control ATPase, but the steady state concentration of the phosphoenzyme intermediate was only slightly reduced [335]. The Ca ... 

The possible role of cellular glutathione status in the controlling sarcolemmal protein activity has been addressed by studying the effect of GSH, GSSG and several other thiol and disulphide compounds on Na/K ATPase activity using (1) an isolated bovine ventricular Na/K ATPase preparation (2) crude sarcolemmal preparations (biochemical studies) (c) Langendorff-perfiised isolated hearts (cytochemical studies) and (4) isolated ventricular myocytes (electrophysiologjcal studies). 

Although it is widely accepted that ischaemia/ reperfusion-induced oxidant stress is associated with a reduction of Na/K ATPase activity, it is difficult to determine which features of this process are responsible for this effect. A classical approach to this type of problem has been to determine the effect of the application of selected metabolites or agents on the activity of the enzyme of interest, an approach that has been exploited for the sarcolemmal Na/K ATPase and glutathione (Haddock et al., 1990). The application of GSH (O.l-l.OmM) induces a concentration-dependent increase in the activity of a bovine isolated ventricular Na/K ATPase preparation (determined by the ouabain-sensitive hydrolysis of ATP to release inorganic phosphate). In the presence of 1 mM GSH there was a 38% stimulation of activity compared to untreated control... 

Figure 4.9 Effect of reduced glutathione (GSH) (0.25-1.0 ihm) and oxidized glutathione (GSSG) (0.25-1.0 mM) on ouabain-sensitive Na/K ATPase activity. An isolated Na/K ATPase preparation was prepared from fresh bovine ventricular tissue. Na/K ATPase activity was determined and quantified by the ouabain-sensitive hydrolysis of ATP to yield Inorganic phosphate. The rate of inorganic phosphate production was compared prior to and following the addition of either GSH or GSSG to the Incubation mixture. The data are presented as...

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