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961.
Marie Kselíková Tomáš Mařík Bedřich Bíbr Jaroslav Lener 《Biological trace element research》1980,2(1):57-64
This study describes the interaction of molybdenum with blood components. Molybdenum-99 was added to blood, and after four
washings, 3% of the total radioactivity was found in red cells. More specifically, the radioactivity was determined to be
associated with the cell membrane.
Molybdenum-99 in the +VI form did not interact with the human erythrocyte membrane; however, Mo(V) forms did interact. Of
five different compounds, the highes uptake was observed with a brown Mo(V)-ascorbate complex generated from Mo(VI) and ascorbic
acid in the molar ratio 1∶20. A membrane suspension of Mo-ascorbate-treated human erythrocytes was prepared and the solubilized
proteins were separated on a polyacrylamide gel in the presence of sodium dodecyl sulfate (SDS). Molybdenum-99 binding to
spectrin was demonstrated, as well as some minor interactions with membrane hemoglobin and bands 6 and 8. 相似文献
962.
Carl L. Keen Bo Lönnerdal Theodore N. Stein Lucille S. Hurley 《Biological trace element research》1980,2(3):221-227
The presence of superoxide dismutase in bovine and human milk was investigated by ultrafiltration, gel filtration, and isoelectric
focusing. Conclusive evidence for the presence of this enzyme in both milks is presented. The molecular weight of the enzyme
was estimated by gel filtration on Sephadex G-100 to be 30,000, which is consistent with reported values for the copper, zinc
form of superoxide dismutase. In addition, enzyme activity was inhibited by cyanide, thus eliminating the possibility that
the enzyme was present in the manganese form. Several isoenzymes were detected by isoelectric focusing in polyacrylamide gel,
and the isoenzyme pattern in bovine milk was the same as that found for bovine plasma, suggesting that milk superoxide dismutase
originates from plasma. It may be that the presence of copper, zinc superoxide dismutase in milk is important for the maintenance
of its oxidative stability. 相似文献
963.
F. Oesch P. Bentley K.L. Platt M.D. Golan 《Archives of biochemistry and biophysics》1980,199(2):538-544
A radiometric assay for epoxide hydratase using [14C]benzene oxide as substrate has been developed. The reaction product trans-1,2-[14C]dihydroxy-1,2-dihydrobenzene (benzene dihydrodiol) was separated from the other components by simple extraction of the unreacted substrate and phenol (a rearrangement product) into a mixture of light petroleum and diethyl ether followed by extraction of the benzene dihydrodiol into ethyl acetate. The product was then estimated by scintillation counting. Using this assay the enzymic hydration of benzene oxide and the possible existence of a microsomal epoxide hydratase with a greater specificity toward benzene oxide were reinvestigated. The sequence of activities of microsomes from various organs was liver > kidney > lung > skin, the pH optimum of enzymic benzene oxide hydration was about pH 9.0, which is similar to that of styrene oxide hydration and both activities were equally stable when liver microsomal fractions were stored. The effect of low molecular weight inhibitors upon the hydration of styrene and benzene oxide by liver microsomes was similar in some cases and dissimilar in others. However, all the dissimilarities could be explained without recourse to the hypothesis of the existence of a separate benzene oxide hydratase. During enzyme purification studies the activity toward benzene oxide was inhibited by the detergent used (cutscum) but was recovered when the detergent was removed. Solubilization without significant loss of activity was successful using sodium cholate. This allowed immunoprecipitation studies, which were performed using monospecific antiserum raised against homogeneous epoxide hydratase. The dose-response curves of the extent of precipitation of activity with increasing amounts of added antiserum were indistinguishable for benzene oxide and styrene oxide as substrate. At high antiserum concentrations precipitation was complete with both substrates. The findings, taken together, indicate the presence in rat liver microsomes of a single epoxide hydratase catalyzing the hydration of both styrene and benzene oxide or the presence of enzymes so closely related that these cannot be distinguished by any of the criteria tested. 相似文献
964.
M.J. Sculley J.T. Duniec S.W. Thorne W.S. Chow N.K. Boardman 《Archives of biochemistry and biophysics》1980,201(1):339-346
An analysis is made of the van der Waals dispersion attractive forces and electrostatic repulsive forces between the grana thylakoid membranes of chloroplasts. These forces are determined for negatively charged surfaces with a pKa value of 4.7 for a bulk pH of 7.0 with a range of mono- and divalent cation concentrations and intermembrane spacing in the range 10 to 80 Å. For equilibrium under dark conditions, it is concluded that either there is extensive electrostatic binding of divalent cations (Mg2+) to the negatively charged membrane groups (phospholipid, sulfolipid, and protein carboxyl), or a redistribution of these groups between stacked and unstacked regions must be invoked. 相似文献
965.
There are two 3-hydroxyacyl-CoA dehydrogenase (EC 1.1.1.35) in rat liver, one in mitochondria (type I enzyme), and another in peroxisomes (type II enzyme). In a series of the studies on the properties and the physiological roles of fatty acid oxidation systems in both organelles, the two enzymes were purified and compared for their properties. The final preparations obtained were judged to be homogeneous based on the results of sodium dodecyl sulfate-polyacrylamide gel electrophoresis and sedimentation velocity analysis. Type I enzyme was composed of two identical subunits of molecular weight of 32,000, whereas type II enzyme was a monomeric enzyme having a molecular weight of 70,000–77,000. These subunit structures were confirmed by the results of fluorescence studies. Both enzymes were different in amino acid compositions, especially in the contents of tryptophan and half-cystine. Antibodies against them formed single precipitin lines for the corresponding enzymes, but not for the others when subjected to an Ouchterlony double-diffusion test. The Km values of type II enzyme for various substrates were lower than those of type I enzyme except those for acetoacetyl-CoA. As for 3-hydroxyacyl-CoA substrates, both enzymes had lower Km's for longer-chain substrates. The V for the substrates of C4C10 were similar for each enzyme, though the value of type II enzyme for C10 substrate was rather lower. The results of fluorescence studies suggested that their dissociation constants for NADH were lower and those for NAD+ were higher at lower pH. Both enzymes were specific to l-form of 3-hydroxyacyl-CoA substrate. The optimal pH of the forward reaction of type I and type II enzymes was 9.6 and 9.8, and of the reverse reaction, 4.5 and 6.2, respectively. From these results they were concluded to be completely different enzymes. 相似文献
966.
Andrzej J. Żelazowski Jadwiga A. Szymańska Czesklaw S. Cierniewski 《Chemico-biological interactions》1980,33(1):115-125
Two homogenous fractions of hepatic metallothioneins ((Cd,Zn) MT-1 and (Cd,Zn) MT-2) and renal metal binding proteins ((Bi,Cu) BP-1 and (Bi,Cu) BP-2) were isolated from rats exposed to heavy metals and specific antisera to them were produced in rabbits.These antisera were tested by immunodiffusion and immunoelectrophoresis for their ability to bind different fractions of hepatic Cd,Zn -metallothionein and renal (Bi,Cu)-, (Hg,Cu)- and (Cd,Cu)-binding proteins. It was found that anti (Bi,Cu) BP antisera did not cross-react with hepatic (Cd,Zn) MT-1 and (Cd,Zn) MT-2. Strong immunological cross-reactions were detected between anti (Bi,Cu) BP antisera and individual forms of (Cd,Cu)-, (Hg,Cu)- and (Bi,Cu)-binding proteins isolated from rat kidneys. 相似文献
967.
Arnold M. Katz Charles F. Louis Doris I. Repke Gary Fudyma Priscilla A. Nash-Adler Robert Kupsaw Munekazu Shigekawa 《生物化学与生物物理学报:生物膜》1980,596(1):94-107
Unfractionated and low buoyant density sarcoplasmic reticulum vesicles released calcium spontaneously after ATP- or acetyl phosphate-supported calcium uptake when internal Ca2+ was stabilized by the use of 50 mM phosphate as calcium-precipitating anion. This spontaneous calcium release could not be attributed to falling Ca2+ concentration outside the vesicles (Ca02+), substrate depletion, ADP accumulation, nonspecific membrane deterioration or the attainment of a high vesicular calcium content. Instead, spontaneous calcium release was directly proportional to Ca02+ at the time that calcium content was maximal. A causal relationship between high Ca02+ and spontaneous calcium release was suggested by the finding that elevation of Ca02+ from less than 1 μM to 3–5 μM increased the rate and extent of calcium release.The spontaneous calcium release was due both to acceleration of calcium efflux and slowing of calcium influx that was not accompanied by a significant change in the rate of ATP hydrolysis. Neither reversal of the transmembrane KCl gradient nor incubation with cation and proton ionophores abolished the spontaneous calcium release. The persistence of calcium release under conditions where the membrane was permeable to both anions and cations makes it unlikely that this phenomenon is due to a changing transmembrane potential. 相似文献
968.
Parimal C. Sen Zhou Meng Ai Tushar K. Ray 《Archives of biochemistry and biophysics》1980,205(2):340-351
The transversal distribution of the free NH2 groups associated with phosphatidyl ethanolamine and the intrinsic membrane proteins of the purified pig gastric microsomes was quantitated and their relations to the function of the gastric K+-stimulated ATPase was investigated. Three different chemical probes such as 2,4,6-trinitrobenzene sulfonic acid (TNBS), 1-fluoro-2,4-dinitrobenzene (FDNB), and 2-methoxy-2,4-diphenyl-3(2H)-furanone (MDPF) were used for the study. The structure-function relationship of the membrane NH2 groups was studied after modification with the probes under various conditions and relating the inhibition of the K+-stimulated ATPase to the ATPase-dependent H+ accumulation by the gastric microsomal vesicles. TNBS (2 mm) inhibits nearly completely the K+-stimulated ATPase and the vesicular dye accumulation, both in presence and absence of valinomycin plus K+. Both the K+-ATPase and dye uptake were largely (about 50%) protected against TNBS inhibition if the treatment with TNBS was carried out in presence of 2 mm ATP. TNBS and FDNB labeled 70% of the total microsomal PE; the intra- and extravesicular orientation being 48 and 22%, respectively. The presence or absence of ATP did not have any effect on the TNBS labeling of microsomal PE. ATP, however, significantly (P < 0.05) reduced the labeling of protein-bound NH2 groups of gastric microsomes by TNBS. The intra- and extravesicular orientation of the protein NH2 groups were 60 and 40%, respectively. Eighteen percent of the total protein-NH2 appeared to be associated with the K+-stimulated ATPase; the rest being associated with non-ATPase proteins of the microsomes. About half (50%) of the total free NH2 groups of the K+-stimulated ATPase were exposed to the vesicle exterior and were found to play critical roles in gastric ATPase function. The generation of florescence after MDPF conjugation of gastric microsomes was largely (50%) inhibited by ATP. ATP also protected completely the MDPF inhibition of gastric K+-stimulated ATPase and dye uptake. 相似文献
969.
The pH dependence of proton uptake upon binding of NADH to porcine heart mitochondrial malate dehydrogenase (l-malate: NAD+ oxidoreductase, EC 1.1.1.37) has been investigated. The enzyme has been shown to exhibit a pH-dependent uptake of protons upon binding NADH at pH values from 6.0 to 8.5. Enzyme in which one histidine residue has been modified per subunit by the reagent iodoacetamide (E. M. Gregory, M. S. Rohrbach, and J. H. Harrison, 1971, Biochim. Biophys. Acta253, 489–497) was used to establish that this specific histidine residue was responsible for the uptake of a proton upon binding of NADH to the native enzyme. It has also been established that while there is no enhancement of the nucleotide fluorescence upon addition of NADH to the iodoacetamide-modified enzyme, NADH is nevertheless binding to the modified enzyme with the same stoichiometry as with native enzyme. The data are discussed in relation to the involvement of the essential histidine residue in the catalytic mechanism of “histidine dehydrogenases” recently proposed by Lodola et al. (A. Lodola, D. M. Parker, R. Jeck, and J. J. Holbrook, 1978, Biochem. J.173, 597–605) and the catalytic mechanism of “malate dehydrogenases” recently proposed by L. H. Bernstein and J. Everse (1978, J. Biol. Chem.253, 8702–8707). 相似文献
970.
R Oren S Weiss H Garty S R Caplan Z Gromet-Elhanan 《Archives of biochemistry and biophysics》1980,205(2):503-509
The coupling factor ATPase complex extracted by Triton X-100 from the photosynthetic bacterium Rhodospirillum rubrum could be incorporated into phospholipid vesicles after removal of the Triton. Vesicles reconstituted with this F0 · F1-type ATPase together with bacteriorhodopsin were found to catalyze, in the light, net ATP synthesis which was inhibited by the energy transfer inhibitors oligomycin and N,N-dicyclohexylcarbodiimide as well as by uncouplers. In vesicles reconstituted with the crude ATPase up to 50% of the observed rate of phosphorylation was independent on light and bacteriorhodopsin and insensitive to the above-listed inhibitors. This dark activity was, however, completely blocked by the adenylate kinase inhibitor, p1,p5-di(adenosine-5′)pentaphosphate, which did not affect at all the net light-dependent phosphorylation nor the ATP-32Pi exchange reaction. Vesicles reconstituted with the purified ATPase catalyzed only the light- and bacteriorhodopsin-dependent diadenosine pentaphosphate-insensitive phosphorylation. The rate of this photophosphorylation was found to be proportional to the amount of ATPase and bacteriorhodopsin, and linear for at least 20 min of illumination. These results indicate that the purified ATPase contains the complete assembly of subunits required to transduce electrochemical gradient energy into chemical energy. 相似文献