Browsing by Subject "Catalysis"
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- ItemOpen AccessImportance of Conserved N-domain Residues Thr 441 , Glu 442 , Lys 515 , Arg 560 , and Leu 562 of Sarcoplasmic Reticulum Ca 2+ -ATPase for MgATP Binding and Subsequent Catalytic Steps: PLASTICITY OF THE NUCLEOTIDE-BINDING SITE(2003) Clausen, Johannes D; McIntosh, David B; Vilsen, Bente; Woolley, David G; Andersen, Jens PeterNine single mutations were introduced to amino acid residues Thr441, Glu442, Lys515, Arg560, Cys561, and Leu562 located in the nucleotide-binding domain of sarcoplasmic reticulum Ca2+-ATPase, and the functional consequences were studied in a direct nucleotide binding assay, as well as by steady-state and transient kinetic measurements of the overall and partial reactions of the transport cycle. Some partial reaction steps were also examined in mutants with alterations to Phe487, Arg489, and Lys492. The results implicate all these residues, except Cys561, in high affinity nucleotide binding at the substrate site. Mutations Thr441 --> Ala, Glu442 --> Ala, and Leu562 --> Phe were more detrimental to MgATP binding than to ATP binding, thus pointing to a role for these residues in the binding of Mg2+ or to a difference between the interactions with MgATP and ATP. Subsequent catalytic steps were also selectively affected by the mutations, showing the involvement of the nucleotide-binding domain in these reactions. Mutation of Arg560 inhibited phosphoryl transfer but enhanced the E1PCa2 --> E2P conformational transition, whereas mutations Thr441 --> Ala, Glu442 --> Ala, Lys492 --> Leu, and Lys515 --> Ala inhibited the E1PCa2 --> E2P transition. Hydrolysis of the E2P phosphoenzyme intermediate was enhanced in Glu442 --> Ala, Lys492 --> Leu, Lys515 --> Ala, and Arg560 --> Glu. None of the mutations affected the low affinity activation by nucleotide of the phosphoenzyme-processing steps, indicating that modulatory nucleotide interacts differently from substrate nucleotide. Mutation Glu442 --> Ala greatly enhanced reaction of Lys515 with fluorescein isothiocyanate, indicating that the two residues form a salt link in the native protein.
- ItemOpen AccessThe oligomerisation of propene over nickel oxide silica alumina(1987) Harms, Stefan Mathias; Kojima, Masami; O'Connor, Cyril TA synthesis techniQue was developed for the preparation of a nickel oxide sil ica alumina catalyst. The propene oligomerisation activity and the selectivity of the catalysts prepared by homogeneous decomposition deposition (HDD) were investigated and compared with nickel oxide silica alumina catalysts prepared by the techniQues of impregnation (IMP) and co-precipitation (SG). Amongst others. the effect of the nickel content. reacti6n temperature and pressure, and water content of the feed, on the activity and selectivity. were investigated. Also investigated were the lifetime of the various catalysts and, in the case of HDD type catalysts. the ability to oligomerise high molecular weight hydrocarbons (Cb). Nickel oxide silica alumina prepared by the HDD method is more active for the propene oligomerisation than catalysts prepared by the IMP and SG methods. The product spectrum in the case of IMP and HDD type catalysts are similar, with a propene dimer (Cb) being the main product. In the case of SG type catalysts. however. a shift to heavier products was observed, i.e., propene dimer (Cb) and trimer (Cq) were formed in eQual Quantities. It is proposed that the increase in activity of HDD type catalysts was due to a large extent of metal dispersion and distribution and a stronger interaction between the metal and the support. It is also proposed that the metal is readily accessible to the reactant molecules. The activity and selectivity of catalysts prepared by the HDD method were independent of the nickel content. This was not the case for IMP and SG type catalysts. both of which showed decreasing activity with increasing nickel content when the nickel content was increased beyond 5 wt%. The lifetimes of the various catalysts were also examined. From the results obtained. over the first 10 h. the lifetime of HOD type catalysts was superior to that of the other catalysts studied. The activity and selectivity of the various catalysts were sensitive to the reaction conditions. Thus moving into the vapour phase. by either increasing the temperature at a fixed pressure or decreasing the pressure at a fixed temperature. was in each case acCompanied by a shift to heavier products and a decrease in activity.
- ItemOpen AccessRoles of Conserved P Domain Residues and Mg 2+ in ATP Binding in the Ground and Ca 2+-activated States of Sarcoplasmic Reticulum Ca 2+-ATPase(2004) McIntosh, David B; Clausen, Johannes D; Woolley, David G; MacLennan, David H; Vilsen, Bente; Andersen, Jens PeterResidues in conserved motifs (625)TGD, (676)FARXXPXXK, and (701)TGDGVND in domain P of sarcoplasmic reticulum Ca(2+)-ATPase, as well as in motifs (601)DPPR and (359)NQR(/K)MSV in the hinge segments connecting domains N and P, were examined by mutagenesis to assess their roles in nucleotide and Mg(2+) binding and stabilization of the Ca(2+)-activated transition state for phosphoryl transfer. In the absence of Mg(2+), mutations removing the charges of domain P residues Asp(627), Lys(684), Asp(703), and Asp(707) increased the affinity for ATP and 2',3'-O-(2,4,6-trinitrophenyl)-8-azidoadenosine 5'-triphosphate. These mutations, as well as Gly(626)--> Ala, were inhibitory for ATP binding in the presence of Mg(2+) and for tight binding of the beta,gamma-bidentate chromium(III) complex of ATP. The hinge mutations had pronounced, but variable, effects on ATP binding only in the presence of Mg(2+). The data demonstrate an unfavorable electrostatic environment for binding of negatively charged nucleotide in domain P and show that Mg(2+) is required to anchor the phosphoryl group of ATP at the phosphorylation site. Mutants Gly(626) --> Ala, Lys(684) --> Met, Asp(703) --> Ala/Ser/Cys, and mutants with alteration to Asp(707) exhibited very slow or negligible phosphorylation, making it possible to measure ATP binding in the pseudo-transition state attained in the presence of both Mg(2+) and Ca(2+). Under these conditions, ATP binding was almost completely blocked in Gly(626) --> Ala and occurred with 12- and 7-fold reduced affinities in Asp(703) --> Ala and Asp(707) --> Cys, respectively, relative to the situation in the presence of Mg(2+) without Ca(2+), whereas in Lys(684) --> Met and Asp(707) --> Ser/Asn the affinity was enhanced 14- and 3-5-fold, respectively. Hence, Gly(626) and Asp(703) seem particularly critical for mediating entry into the transition state for phosphoryl transfer upon Ca(2+) binding at the transport sites.
- ItemOpen AccessThapsigargin and Dimethyl Sulfoxide Activate Medium P i ↔ HOH Oxygen Exchange Catalyzed by Sarcoplasmic Reticulum Ca 2+ -ATPase(2001) Seekoe, Tshepo; Peall, Susan; McIntosh, David BThapsigargin is a potent inhibitor of sarcoplasmic reticulum Ca(2+)-ATPase. It binds the Ca(2+)-free E2 conformation in the picomolar range, supposedly resulting in a largely catalytically inactive species. We now find that thapsigargin has little effect on medium P(i) <--> HOH oxygen exchange and that this activity is greatly stimulated (up to 30-fold) in the presence of 30% (v/v) Me(2)SO. Assuming a simple two-step mechanism, we have evaluated the effect of thapsigargin and Me(2)SO on the four rate constants governing the reaction of P(i) with Ca(2+)-ATPase. The principal effect of thapsigargin alone is to stimulate EP hydrolysis (k(-2)), whereas that of Me(2)SO is to greatly retard P(i) dissociation (k(-1)), accounting for its well known effect on increasing the apparent affinity for P(i). These effects persist when the agents are used in combination and substantially account for the activated oxygen exchange (v(exchange) = k(-2)[EP]). Kinetic simulations show that the overall rate constant for the formation of EP is very fast (approximately 300 s(-1)) when the exchange is maximal. Thapsigargin greatly stabilizes Ca(2+)-ATPase against denaturation in detergent in the absence of Ca(2+), as revealed by glutaraldehyde cross-linking, suggesting that the membrane helices lock together. It seems that the reactions at the phosphorylation site, associated with the activated exchange reaction, are occurring without much movement of the transport site helices, and we suggest that they may be associated solely with an occluded H+ state.