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921.
The effects of certain physicochemical parameters on the formation and stability of a complex between Streptomyces proteinaceous metalloprotease inhibitor (SMPI) and thermolysin were investigated. SMPI had its lowest Ki value at a pH of around 6.5 (similar to the pH dependence of the kcat/K(m) of thermolysin catalysis), reflecting the splitting mechanism of the SMPI inhibition of thermolysin. This Ki increased with an increase in pressure, and in (Ki-1) was almost linear with respect to pressure. The volume of the reaction (delta Vcomp), which is the volume change accompanying enzyme-inhibitor complex formation, was calculated as +8.1 +/- 0.3 mL.mol-1, which has a sign opposite to delta Vcomp for neutral peptide inhibitors and acyl-peptide substrates. The temperature dependence of Ki-1 gave the reaction enthalpy (delta Hcomp) and reaction entropy (delta Scomp) of the complex formation as 34.6 +/- 1.4 kJ.mol-1 and 298 +/- 5 J.mol-1.K-1, respectively. These positive reaction volumes and reaction entropies were related to the electrostatic interactions and ionic strength dependence of Ki which corresponded to the key ionic interaction during complex formation. Complex formation with SMPI stabilized thermolysin against pressure perturbation as observed by the changes in the Trp fluorescence of thermolysin with increasing pressure. Thermal stability, however, was affected very little by complex formation with SMPI. Phosphoramidon, Cbz-Phe-Gly-NH2 and Cbz-Phe also positively affected the pressure-tolerance of thermolysin, in the following order: Cbz-Gly-Phe-NH2 < Cbz-Phe < phosphoramidon. The third compound exhibited stabilizing effects comparable with those of SMPI, which suggests that the interaction between SMPI and thermolysin was localized to the reactive site. 相似文献
922.
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926.
K. Judge 《BMJ (Clinical research ed.)》1989,299(6712):1385-1387
927.
N K Shinton 《BMJ (Clinical research ed.)》1978,2(6153):1694-1695
928.
New mutations in the pRM promoter of bacteriophage lambda 总被引:1,自引:0,他引:1
929.
Recently, Knappe and co-workers [Knappe, J., Neugebauer, F. A., Blaschkowski, H. P., & Ganzler, M. (1984) Proc. Natl. Acad. Sci. U.S.A. 81, 1332] have shown that the catalytically active form of pyruvate formate-lyase from Escherichia coli is associated with a protein-bound organic free radical which is quenched upon enzyme inactivation by oxygen or hypophosphite. Our interest in the chemical mechanism of this unusual enzymatic reaction has led us to investigate several key aspects of the inactivation of the lyase by hypophosphite and its relationship to the normal enzymatic reaction. We report here that the inactivation of both the free and acetylated forms of the lyase is subject to a primary kinetic isotope effect using [2H2]hypophosphite. This suggests that phosphorus-hydrogen bond cleavage is at least partially rate limiting during inactivation. In addition, the inactivated enzyme can be fully reactivated. We have also determined a Vmax/Km isotope effect of 3.6 +/- 0.7 for pyruvate formation from [2H]formate and acetyl coenzyme A. Thus, carbon-hydrogen bond cleavage is partially rate limiting in the normal reverse reaction. On the basis of our findings, the previous work of Knappe and co-workers, the likelihood that hypophosphite is a formate analogue, the known susceptibility of both hypophosphite and formate to homolysis, and a chemical precedent for homolytic cleavage of pyruvate, we offer a preliminary mechanistic proposal for the lyase reaction. 相似文献
930.
Dithiobis (2-nitrobenzoic acid)-resistant and -sensitive glycerophosphate acyltransferase systems were present in rat lung as in liver. The former was specific for palmitate while the latter could incorporate saturated and unsaturated acyl-CoAs comparably. The former has higher affinity for palmitate than the latter indicating that the 1-position of glycerophosphate can be acylated selectively with palmitate under certain conditions. The specificities of 1-acylglycerophosphate and 1-acylglycerophosphocholine acyltransferase systems were similar in lung and liver; both systems showed higher specificities for unsaturated acyl-CoAs. However, the selectivities observed at lower concentrations of phospholipid acceptors in the presence of equimolar mixtures of saturated and unsaturated acyl-CoAs were much different; the lung systems showed relatively higher selectivities for palmitate than the liver systems in the formation of both diacylglycerophosphate and phosphatidylcholine. On the other hand, palmitate was excluded almost completely from the 2-position in the 1-acylglycerophosphoethanolamine acyltransferase systems in lung and liver. These observations provide an enzymatic basis for describing the formation of pulmonary surfactant lipids in rat via acyltransferase systems. 相似文献