UNIPROT:P39060 - FACTA Search

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Query: UNIPROT:P39060 (endostatin)
2,284 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Inorganic pyrophosphate promoted the acidification of an intracellular compartment in permeabilized procyclic trypomastigotes of Trypanosoma brucei, as measured by acridine orange uptake. The proton gradient generated by pyrophosphate was collapsed by addition of nigericin or NH(4)Cl. Pyrophosphate-driven proton translocation was stimulated by potassium ions and inhibited by KF, by the pyrophosphate analogs imidodiphosphate and aminomethylenediphosphonate (AMDP), and by the thiol reagent p-hydroxymercuribenzoate at concentrations similar to those that inhibit the plant vacuolar H(+)-pyrophosphatase (PPase). The proton translocation activity had a pH optimum around 7.5 and was partially inhibited by 7-chloro-4-nitrobenz-2-oxa-1,3-diazole (10 microM) and unaffected by bafilomycin A(1) (40 nM), concanamycin A (5 nM), sodium o-vanadate (500 microM), oligomycin (1 microM), N-ethylmaleimide (100 microM), and KNO(3). AMDP-sensitive pyrophosphate hydrolysis was detected in both procyclic and bloodstream trypomastigotes. Measurements of acridine orange uptake in permeabilized procyclic trypomastigotes in the presence of different substrates and inhibitors suggested the presence of H(+)-ATPase, H(+)-PPase, and (ADP-dependent) H(+)/Na(+) antiport activity in the same compartment. Separation of bloodstream and procyclic trypomastigote extracts on Percoll gradients yielded fractions that contained H(+)-PPase (both stages) and H(+)/Na(+) exchanger (procyclics) activities but lacked markers for mitochondria, glycosomes, and lysosomes. The organelles in these fractions were identified by electron microscopy and X-ray microanalysis as acidocalcisomes (electron-dense vacuoles). These results provide further evidence for the unique nature of acidocalcisomes in comparison with other, previously described, organelles.
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PMID:Characterization of a vacuolar pyrophosphatase in Trypanosoma brucei and its localization to acidocalcisomes. 1052 60

A novel protein with ATPase activity was purified from the cytoplasmic extracts of maize pollen by acetone precipitation, ammonium sulfate fractionation, followed by DEAE-Sephadex A(50) and Mono S ion-exchange chromatography. The molecular weight was about 28 kD as determined by SDS-PAGE and the isoelectric point was pH 8.3 by IEF-PAGE. Western blotting analysis showed the 28 kD protein had no specific immuno-reactions with the anti-kinesin monoclonal or the anti-dynamin polyclonal antibodies. The maximum ultraviolet absorbance was at 278 nm, CD spectrum analysis showed the that 28 kD protein with the feature of a globulin. Pharmacological studies indicated that the enzyme activity was strongly inhibited by Na(3)VO(4) but insensitive to NEM. It was inhibited about 50% by NaF. Oligomycin, KNO(3) and ouabain had no effects on its ATPase activity.
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PMID:Purification of the 28 kD Protein from Maize Pollen and Studies on Its Properties. 1223 28

The tonoplast of Tradescantia virginiana L. was prepared from leaf cells and then solubilized with deoxycholate (DOC) and n-octyl-beta-D-glucoside (n-OG). Three major polypeptides (68, 60, 16 kDa) and several other minor components were isolated. These polypeptides were reconstituted in soybean phospholipids (asolectin). The H(+) pump activity was investigated with the reconstituted system as well as with the tonoplast. In both cases, the quinacrine-fluorescence quenching was observed in the presence of ATP-Mg(2+), indicating the H(+) pumping. The H(+) pump activity was inhibited by gramicidin D, a channel-forming ionophore, and by KNO(3), an inhibitor specific to tonoplast-type (V-type) H(+)-ATPase.
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PMID:Isolation of H+ -translocating ATPase in tonoplast of Tradescantia virginiana L. leaf cells. 1244 53

Microsomal membranes isolated from red beet (Beta vulgaris L.) storage tissue were found to contain high levels of ionophore-stimulated ATPase activity. The distribution of this ATPase activity on a continuous sucrose gradient showed a low density peak (1.09 grams per cubic centimeter) that was stimulated over 400% by gramicidin and coincided with a peak of NO(3) (-)-sensitive ATPase activity. At higher densities (1.16-1.18 grams per cubic centimeter) a shoulder of gramicidin-stimulated ATPase that coincided with a peak of vanadate-sensitive ATPase was apparent. A discontinuous sucrose gradient of 16/26/34/40% sucrose (w/w) was effective in routinely separating the NO(3) (-)-sensitive ATPase (16/26% interface) from the vanadate-sensitive ATPase (34/40% interface). Both membrane fractions were shown to catalyze ATP-dependent H(+) transport, with the transport process showing the same differential sensitivity to NO(3) (-) and vanadate as the ATPase activity.Characterization of the lower density ATPase (16/26% interface) indicated that it was highly stimulated by gramicidin, inhibited by KNO(3), stimulated by anions (Cl(-) > Br(-) > acetate > HCO(3) (-) > SO(4) (2-)), and largely insensitive to monovalent cations. These characteristics are very similar to those reported for tonoplast ATPase activity and a tonoplast origin for the low density membrane vesicles was supported by comparison with isolated red beet vacuoles. The membranes isolated from the vacuole preparation were found to possess an ATPase with characteristics identical to those of the low density membrane vesicles, and were shown to have a peak density of 1.09 grams per cubic centimeter. Furthermore, following osmotic lysis the vacuolar membranes apparently resealed and ATP-dependent H(+) transport could be demonstrated in these vacuole-derived membrane vesicles. This report, thus, strongly supports a tonoplast origin for the low density, anion-sensitive H(+)-ATPase and further indicates the presence of a higher density, vanadate-sensitive, H(+)-ATPase in the red beet microsomal membrane fraction, which is presumably of plasma membrane origin.
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PMID:H-ATPase Activity from Storage Tissue of Beta vulgaris: I. Identification and Characterization of an Anion-Sensitive H-ATPase. 1666 57

The ATP-dependent proton-pumping activity of soybean (Glycine max L.) root microsomes is predominantly nitrate sensitive and presumably derived from the tonoplast. We used microsomes to characterize anion effects on proton pumping of the tonoplast vesicles using two distinctly different techniques.Preincubation of the vesicles with nitrate caused inhibition of proton pumping and ATPase activity, with similar concentration dependence. Fluoride, which preferentially inhibits the plasma membrane ATPase, inhibited ATPase activity strongly at concentrations which did not affect proton pumping activity.Addition of potassium salts, after a steady-state pH gradient is established in the absence of such salts, caused an increased pH gradient which was due to alleviation of Delta Psi and subsequent increased influx of H(+) into these vesicles. This anion-induced increase in the pH gradient could be used as a measure of the relative anion permeabilities, which were of the order Br(-) = NO(3) (-) > Cl(-) >> SO(4) (2-). Phosphate and fluoride caused no increase in the pH gradient. Since the concentration dependence of KCl- and KNO(3)-induced quenching exhibited a saturable component, and since H(+) uptake was increased by only certain anions, the data suggest that there may be a relatively specific anion channel associated with tonoplast-derived vesicles.
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PMID:Characterization of Anion Effects on the Nitrate-Sensitive ATP-Dependent Proton Pumping Activity of Soybean (Glycine max L.) Seedling Root Microsomes. 1666 57

The tonoplast ATPase from corn coleoptile membranes was solubilized using a two-step procedure consisting of a pretreatment with 0.15% (w/v) deoxycholate to remove 60% of the protein, and 40 millimolar octyl-glucoside to solubilize the ATPase. During ultracentrifugation, the solublized ATPase entered a linear sucrose gradient faster than the majority of the protein, resulting in an 11-fold purification over the initial specific activity. The partially purified ATPase was almost completely inhibited by KNO(3) with an estimated K(i) of 10 millimolar. The specific activity of the KNO(3)-sensitive ATPase was increased 29-fold during purification. N,N'-Dicyclohexylcarbodiimide also completely inhibited the ATPase with half-maximal effects at a concentration of 4 micromolar. Neither vanadate nor azide inhibited enzyme activity. The purified ATPase was stimulated by Cl(-) and preferred Mg-ATP as substrate. Analysis of frations from the sucrose gradient by sodium dodecyl sulfate-polyacrylamide gel electrophoresis led to the identification of two major polypeptides at 72,000 and 62,000 daltons which were best correlated with ATPase activity. Several minor bands also appeared to copurify with enzyme activity, but were less consistent. Radiation inactivation experiments with intact membranes indicated that the functional molecular size of the tonoplast ATPase was nearly 400,000 daltons. This suggests that the ATPase is composed of several polypeptides, possibly including the 72,000- and 62,000-dalton proteins.
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PMID:Partial purification of a tonoplast ATPase from corn coleoptiles. 1666 39

Plasma membrane was isolated in a uniform population and with a high purity from chilling-sensitive etiolated young seedlings of Vigna radiata (mung bean) utilizing an aqueous two polymer phase separation system and subsequent sucrose density gradient. The isolated plasma membrane was associated with vanadate-sensitive and KNO(3)-insensitive ATPase. The ATPase has high specificities both for substrate and Mg(2+) ion with optimum pH at 6.5. It was slightly stimulated by monovalent anions, especially Cl(-). Proton ionophores such as gramicidin D and carbonyl cyanide p-trifluoromethoxyphenylhydrazone did not stimulate the enzyme activity. The ATPase is apparently latent and highly stimulated by the addition of detergents such as Triton X-100. A maximum stimulation was achieved by the addition of 0.02% Triton X-100. After treatment with proteinase K in an isotonic buffer solution, the enzyme activity was less affected, whereas the peptides were specifically digested. Based on these facts, the isolated plasma membrane vesicles appear to be tightly sealed and in a right-side-out orientation. The plasma membrane ATPase had two inflection points at higher (18.9 degrees C) and lower (6.7 degrees C) temperatures on the Arrhenius plots of the activity. The lower inflection temperature apparently coincided with that of the anisotropy parameter of embedded 1,6-diphenyl-1,3,5-hexatriene, indicating that the membrane bound ATPase activity was affected by a phase transition of membrane lipids and/or temperature-dependent conformational changes in the enzyme molecules per se. Considering the fact that the plant material used here is highly sensitive to chilling temperatures and injured severely by exposure to temperatures below 5 degrees C for a relatively short period, the thermotropic properties of membrane molecules are considered to be involved in the mechanism of chilling injury.
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PMID:Properties of Plasma Membrane Isolated from Chilling-Sensitive Etiolated Seedlings of Vigna radiata L. 1666 73

The vacuolar potential (V(vac)) and its fluctuations were recorded in red beet vacuoles (Beta vulgaris L.). Measurements with vacuoles in their suspension medium gave V(vac) = 10 +/- 2 millivolts (referred to the external medium) when 3 molar KCl microelectrodes were used. Buffering the microelectrode filling solution at pH 7.7 reversed the sign of the potential: V(vac) = -7 +/- 2 millivolts. The magnitude of the potential fluctuations was lowered by dilution (5-1000 times) with the suspension medium containing components released by the cells during the mechanical preparation. Fluctuations were decreased by 50 millimolar KNO(3) while they were enhanced by 5 millimolar ATP-Mg. No noticeable change in membrane resistance was detected. The presence of an ATPase bound to the tonoplast may explain the recorded noise spectra. These spectra imply a close connection between the rate of ATPase functioning and the magnitude of ionic fluxes across the tonoplast. It is suggested that noise analysis could be used to detect ATPase (or related enzyme) activity in vacuoles. Possible use of H(+) diffusion through a buffered microelectrode, to modify intravacuolar pH, is also suggested.
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PMID:Electrical noise measurements on red beet vacuoles : another way to detect the ATPase activity. 1666 59

The effects of NO(3) (-) and assay temperature on proton translocating ATPases in membranes of barley (Hordeum vulgare L. cv California Mariout 72) roots were examined. The membranes were fractionated on continuous and discontinuous sucrose gradients and proton transport was assayed by monitoring the fluorescence of acridine orange. A peak of H(+)-ATPase at 1.11 grams per cubic centimeter was inhibited by 50 millimolar KNO(3) when assayed at 24 degrees C or above and was tentatively identified as the tonoplast H(+)-ATPase. A smaller peak of H(+)-ATPase at 1.16 grams per cubic centimeter, which was not inhibited by KNO(3) and was partially inhibited by vanadate, was tentatively identified as the plasma membrane H(+)-ATPase. A step gradient gave three fractions enriched, respectively, in endoplasmic reticulum, tonoplast ATPase, and plasma membrane ATPase. There was a delay before 50 millimolar KNO(3) inhibited ATP hydrolysis by the tonoplast ATPase at 12 degrees C and the initial rate of proton transport was stimulated by 50 millimolar KNO(3). The time course for fluorescence quench indicated that addition of ATP in the presence of KNO(3) caused a pH gradient to form that subsequently collapsed. This biphasic time course for proton transport in the presence of KNO(3) was explained by the temperature-dependent delay of the inhibition by KNO(3). The plasma membrane H(+)-ATPase maintained a pH gradient in the presence of KNO(3) for up to 30 minutes at 24 degrees C.
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PMID:Variable Effects of Nitrate on ATP-Dependent Proton Transport by Barley Root Membranes. 1666 73

Proton transport by the nitrate-insensitive, vanadate-sensitive ATPase in Kl-washed microsomes and reconstituted vesicles from maize (Zea mays L.) roots was followed by changes in acridine orange absorbance in the presence of either KNO(3) or KCl. Data from such studies obeyed a kinetic model in which net proton transport by the pump is the difference between the rate of proton transport by the action of the ATPase and the leak of protons from the vesicles in the direction opposite from the pump. After establishing the steady state proton gradient, the rate of return of transported protons was found to obey first-order kinetics when the activity of the ATPase was completely and rapidly stopped. The rate of return of these protons varied with the quencher used. When the substrate Mg:ATP was depleted by the addition of either EDTA or hexokinase, the rate at which the proton gradient collapsed was faster than when vanadate was used as the quencher. These trends were independent of the anion accompanying the K and the transport assay used.
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PMID:Kinetic analysis of proton transport by the vanadate-sensitive ATPase from maize root microsomes. 1666 66

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