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11.
Monoclonal antibodies (mAbs) have been made against each of the five subunits of ECF1 (alpha, beta, gamma, delta, and epsilon), and these have been used in topology studies and for examination of the role of individual subunits in the functioning of the enzyme. All of the mAbs obtained reacted with ECF1, while several failed to react with ECF1F0, including three mAbs against the gamma subunit (gamma II, gamma III, and gamma IV), one mAb against delta, and two mAbs against epsilon (epsilon I and epsilon II). These topology data are consistent with the gamma, delta, and epsilon subunits being located at the interface between the F1 and F0 parts of the complex. Two forms of ECF1 were used to study the effects of mAbs on the ATPase activity of the enzyme: ECF1 with the epsilon subunit tightly bound and acting to inhibit activity and ECF1* in which the delta and epsilon subunits had been removed by organic solvent treatment. ECF1* had an ATPase activity under standard conditions of 93 mumol of ATP hydrolyzed min-1 mg-1, cf. an activity of 7.5 units mg-1 for our standard ECF1 preparation and 64 units mg-1 for enzyme in which the epsilon subunit had been removed by trypsin treatment. The protease digestion of ECF1* reduced activity to 64 units mg-1 in a complicated process involving an inhibition of activity by cleavage of the alpha subunit, activation by cleavage of gamma, and inhibition with cleavage of the beta subunit. mAbs to the gamma subunit, gamma II and gamma III, activated ECF1 by 4.4- and 2.4-fold, respectively, by changing the affinity of the enzyme for the epsilon subunit, as evidenced by density gradient centrifugation experiments. The gamma-subunit mAbs did not alter the ATPase activity of ECF1*- or trypsin-treated enzyme. The alpha-subunit mAb (alpha I) activated ECF1 by a factor of 2.5-fold and ECF1F0 by 1.3-fold, but inhibited the ATPase activity of ECF1* by 30%.  相似文献   
12.
Mechanism of the F(1)F(0)-type ATP synthase, a biological rotary motor   总被引:3,自引:0,他引:3  
The F(1)F(0)-type ATP synthase is a key enzyme in cellular energy interconversion. During ATP synthesis, this large protein complex uses a proton gradient and the associated membrane potential to synthesize ATP. It can also reverse and hydrolyze ATP to generate a proton gradient. The structure of this enzyme in different functional forms is now being rapidly elucidated. The emerging consensus is that the enzyme is constructed as two rotary motors, one in the F(1) part that links catalytic site events with movements of an internal rotor, and the other in the F(0) part, linking proton translocation to movements of this F(0) rotor. Although both motors can work separately, they must be connected together to interconvert energy. Evidence for the function of the rotary motor, from structural, genetic and biophysical studies, is reviewed here, and some uncertainties and remaining mysteries of the enzyme mechanism are also discussed.  相似文献   
13.
A cytochrome c - cytochrome c oxidase complex containing 0.8–1.0 moles of cytochrome c per mole of cytochrome c oxidase (heme a + a3) was isolated as described by Ferguson-Miller, S., Brautigan, D.L., and Margoliash E., J. Biol. Chem. 251, 1104 (1976). This complex was reacted with dithiobissuccinimidyl propionate, an 11 Å bridging bifunctional reagent, and the cross-linked products obtained were analyzed by two dimensional gel electrophoresis. Cytochrome c was cross-linked to subunit II of cytochrome c oxidase. Other cross-linked products were formed involving different subunits of cytochrome c oxidase. These included I+V, II+V, III+V, V+VII, IV+VI and IV+VII. Experiments are also described using N,N′-bis(3-succinimidyloxycarbonylpropyl) tartarate. The major product formed with this 18 Å bridging bifunctional reagent was a pair containing II+VI.  相似文献   
14.
Abstract

The synthesis of pyrimidine nucleosides, cis-N-1-[(2-hydroxymethyl)-1,3-dioxan-5-yl]uracil (4) cis-N-1-[(2-hydroxymethyl)-1,3-dioxan-5-yl]thymine (5) and cis-N-1-[(2-hydroxymethyl)-1,3-dioxan-5-yl]cytosine (6) and their corresponding trans isomers is described. Compound 4 showed modest, selective activity against human immunodeficiency virus in acutely infected primary human lymphocytes.  相似文献   
15.
Abstract

An efficient, safe and cost effective synthesis of deoxyribonucleoside phosphoramidites is described. The amine hydrochloride produced as a by-product during the synthesis of nucleoside phosphorbisamidite is used as an internal activator in the synthesis of phosphoramidites.  相似文献   
16.
M Tommasino  R A Capaldi 《Biochemistry》1985,24(15):3972-3976
The inhibitory effect of dicyclohexylcarbodiimide (DCCD) on the activity of the adenosine-triphosphatase of Escherichia coli (ECF1) has been examined in detail. DCCD reacted with ECF1 predominantly in beta subunits with a maximum of 2 mol of reagent per mole of ECF1 being incorporated in these subunits. Ninety-five percent inhibition of steady-state or multistate ATPase activity required incorporation of 1 mol of DCCD per mole of enzyme into beta subunits. Seventy-five percent inhibition of the initial rate of unisite catalysis was only obtained after incorporation of 2 mol of DCCD per mole of ECF1 into beta subunits. Analyses of the kinetics of unisite catalysis and nucleotide binding experiments both indicate that DCCD binds outside the substrate ATP binding site. Inhibition by this reagent appears to be due in part to an effect on the catalytic sites but mainly to the blocking of cooperativity between these sites.  相似文献   
17.
18.
The arrangement of subunit IV in beef heart cytochrome c oxidase has been explored by chemical labeling and protease digestion studies. This subunit has been purified from four samples of cytochrome c oxidase that had been reacted with N-(4-azido-2-nitrophenyl)-2-aminoethyl[35S]-sulfonate (NAP-taurine), diazobenzene[35S]sulfonate, 1-myristoyl-2-[12-[(4-azido-2-nitrophenyl)amino]lauroyl]-sn-glycero-3- [14C]phosphocholine (I), and 1-palmitoyl-2-(2-azido-4-nitrobenzoyl)-sn-glycero-3-[3H]phosphocholine (II), respectively. The labeled polypeptide was then fragmented by cyanogen bromide, at arginyl side chains with trypsin (after maleylation), and the distribution of the labeling within the sequence was analyzed. The N-terminal part of subunit IV (residues 1-71) was shown to be heavily labeled by water-soluble, lipid-insoluble reagents but not by the phospholipid derivatives. These latter reagents labeled only in the region of residues 62-122, containing the long hydrophobic and putative membrane-spanning stretch. Trypsin cleavage of native cytochrome c oxidase complex at pH 8.2 was shown to clip the first seven amino acids from subunit IV. This cleavage was found to occur in submitochondrial particles but not in mitochondria or mitoplasts. These results are interpreted to show that subunit IV is oriented with its N terminus on the matrix side of the mitochondrial inner membrane and spans the membrane with the extended sequence of hydrophobic lipid residues 79-98 buried in the bilayer.  相似文献   
19.
The gene COX VII coding for yeast cytochrome c oxidase subunit VII has been cloned by a two-step procedure. Two degenerate oligonucleotides corresponding to amino- and carboxyl-terminal protein segments were used in a polymerase chain reaction for the amplification of a major portion of subunit VII (residues 1-52), which was then used for the cloning of complete COX VII. From the nucleotide sequence, an additional amino-terminal and two additional carboxyl-terminal amino acids are predicted as compared with the described primary sequence (Power, S. D., Lochrie, M. A., and Poyton, R. O. (1986) J. Biol. Chem. 261, 9206-9209). Beside subunit VIIa the subunit described here is the only nuclear encoded subunit of cytochrome c oxidase in yeast without a leader sequence. COX VII exists as a single copy per haploid genome as shown by Southern blot and gene disruption. Null mutants produced by gene disruption at the COX VII locus were respiratory-deficient. No cytochrome c oxidase activity was detectable nor was there an assembly of the oxidase complex.  相似文献   
20.
The kinetics and thermodynamics of the folding of the homologous four-helix proteins Im7 and Im9 have been characterised at pH 7.0 and 10 degrees C. These proteins are 60 % identical in sequence and have the same three-dimensional structure, yet appear to fold by different kinetic mechanisms. The logarithm of the folding and unfolding rates of Im9 change linearly as a function of urea concentration and fit well to an equation describing a two-state mechanism (with a folding rate of 1500 s-1, an unfolding rate of 0. 01 s-1, and a highly compact transition state that has approximately 95 % of the native surface area buried). By contrast, there is clear evidence for the population of an intermediate during the refolding of Im7, as indicated by a change in the urea dependence of the folding rate and the presence of a significant burst phase amplitude in the refolding kinetics. Under stabilising conditions (0.25 M Na2SO4, pH 7.0 and 10 degrees C) the folding of Im9 remains two-state, whilst under similar conditions (0.4 M Na2SO4, pH 7.0 and 10 degrees C) the intermediate populated during Im7 refolding is significantly stabilised (KUI=125). Equilibrium denaturation experiments, under the conditions used in the kinetic measurements, show that Im7 is significantly less stable than Im9 (DeltaDeltaG 9.3 kJ/mol) and the DeltaG and m values determined accord with those obtained from the fit to the kinetic data. The results show, therefore, that the population of an intermediate in the refolding of the immunity protein structure is defined by the precise amino acid sequence rather than the global stability of the protein. We discuss the possibility that the intermediate of Im7 is populated due to differences in helix propensity in Im7 and Im9 and the relevance of these data to the folding of helical proteins in general.  相似文献   
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