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451.
Previous investigations have shown that the catalytic efficiency (kcat/KM) of pyruvate oxidase can be enhanced 450-fold by chymotryptic cleavage of a 23-residue peptide (alpha-peptide) from the carboxy terminus of the enzyme. The minimum requirement for proteolytic activation has been investigated by exposing pyruvate oxidase to a variety of carboxypeptidases, either singly or in combination. The extent of carboxypeptidase hydrolysis was followed by analyzing the release of amino acids and by mass spectral analysis of the truncated alpha-peptides which were derived from the carboxypeptidase-treated preparations. The results indicate that the removal of 7 carboxy-terminal residues does not activate the enzyme whereas the removal of 10 or 11 residues produces activated pyruvate oxidase. Activation of pyruvate oxidase by endoproteinase Glu-C confirms the carboxypeptidase results. Endoproteinase Glu-C specificity predicts hydrolytic cleavage of the peptide bond between Glu-561 and Val-562 with the removal of 11 residues from the carboxy terminus of the enzyme. 相似文献
452.
Functional properties and the localization of essential SH-groups of the tonoplast H+-ATPase fromZea mays L. were studied. In contrast to the pyrophosphate-dependent H+-translocation activity of the tonoplast, the H+-ATPase activity was inhibited by SH-blocking agents, such as N-ethylmaleimide and iodoacetic acid. In the case ofp-hydroxymercuribenzoate, HgCl2 and oxidized glutathione, the inhibition could be reversed by adding reduced glutathione or dithiothreitol.
Incubation of tonoplast vesicles with oxidized glutathione or N-ethylmaleimide in the presence of Mg·ADP—a competitive inhibitor
of the ATP-dependent H+ pump—avoided the inhibition of the H+-pumping activity. This effect is an indication for the occurrence of essential SH-groups at the catalytic site of the H+-ATPase.
In order to characterize the active center these thiols were specifically labeled with maleimidobutyrylbiocytin. Subsequently,
the membrane proteins were separated by sodium dodecyl sulfate-polyacrylamide gel electrophoresis and transferred to an immobilizing
membrane. The maleimidobutyrylbiocytin-labeled active-center protein was detected by a biotin-streptavidin-peroxidase staining
system and was shown to be a 70-kDa subunit of the tonoplast H+-ATPase. It is suggested that the oxidation state of the critical sulfhydryl groups within the active center of the enzyme
and their reversible blocking by endogenous compounds might be of great importance for the regulation of the enzyme activity
in vivo. 相似文献
453.
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455.
Role of ultraviolet-B radiation on bacterioplankton and the availability of dissolved organic matter 总被引:1,自引:0,他引:1
Herndl Gerhard J. Brugger Albert Hager Silvia Kaiser Edith Obernosterer Ingrid Reitner Bettina Slezak Doris 《Plant Ecology》1997,128(1-2):43-51
Attenuation of ultraviolet (UV)-radiation into the water column is highly correlated with the concentration of the dissolved organic matter (DOM). Thus UV penetrates deeper into marine waters than into freshwater systems. DOM is efficiently cleaved by solar surface radiation levels consuming more oxygen than bacterial metabolism. This photolytically cleaved DOM exhibits higher absorbance ratios (250/365 nm) than untreated DOM. Natural bacterioplankton reach higher abundance if inoculated in previously solar-exposed DOM than in untreated DOM; during bacterial growth the absorbance ratio declines steadily indicating the utilization of the photolytically cleaved DOM. On the other hand, bacterioplankton are greatly reduced in their activity if exposed to surface solar radiation levels. Photoenzymatic repair of DNA induced by UV-A radiation, however, leads to an efficient recovery of bacterial activity once the UV-B stress is released. Turbulent mixing of the upper layers of the water column leads to a continuous alteration of the UV exposure regime. Close to the surface, bacteria and DOM are exposed to high levels of UV-B leading to a reduction in bacterial activity and to photolysis of DOM. Once mixed into deeper layers where UV-B is attenuated, but sufficient UV-A is remaining to allow photoenzymatic repair, the photolytically cleaved DOM is efficiently taken up by bacterioplankton leading to even higher bacterial activity than prior to the exposure. Thus, the overall effect of UV on bacterioplankton is actually an enhancement of bacterial activity despite their lack of protective pigments. 相似文献
456.
A procedure for the simultaneous purification of RNA polymerases I, II, and III from Saccharomyces cerevisiae is described. High yields of each enzyme activity are obtained, allowing the preparation of approximately 10 mg of polymerase I, 25 mg of polymerase II, and 12 mg of polymerase III from 1.2 kg of cells (wet weight). Polyacrylamide gel electrophoresis in the presence of sodium dodecyl sulfate indicates RNA polymerase I contains polypeptides with molecular weights 185 000, 137 000, 41 000, 35 000, 28 000, 24 000, 20 000, 16 000, 14 500, and 12 300; RNA polymerase II contains subunits with molecular weights 170 000, 145 000, 41 000, 33 500, 28 000, 24 000, 18 000, 14 500, and 12 500; and RNA polymerase III contains polypeptides with molecular weights 160 000, 128 000, 82 000, 53 000, 41 000, 37 000, 34 000, 28 000, 24 000, 20 000, 14 500, and 10 700. 相似文献
457.
Molecular cloning of the Harvey sarcoma virus closed circular DNA intermediates: initial structural and biological characterization. 总被引:44,自引:28,他引:16 下载免费PDF全文
G L Hager E H Chang H W Chan C F Garon M A Israel M A Martin E M Scolnick D R Lowy 《Journal of virology》1979,31(3):795-809
Supercoiled Harvey sarcoma virus (Ha-SV) DNA was extracted from newly infected cells by the Hirt procedure, enriched by preparative agarose gel electrophoresis, and digested with EcoRI, which cleaved the viral DNA at a unique site. The linearized Ha-SV DNA was then inserted into lambda gtWESlambda B at the EcoRI site and cloned in an approved EK2 host. Ha-SV DNA inserts from six independently derived recombinant clones have been analyzed by restriction endonuclease digestion, molecular hybridization, electron microscopy, and infectivity. Four of the Ha-SV DNA inserts were identical, contained about 6.0 kilobase pairs (kbp), and comigrated in agarose gels with the infectious, unintegrated, linear Ha-SV DNA. One insert was approximately 0.65 kbp smaller (5.35 kbp) and one was approximately 0.65 kpb larger (6.65 kpb) than the 6.0 kpb inserts. R-looping with Ha-SV RNA revealed that the small (5.35 kbp) insert contained one copy of the Ha-SV RNA. Preliminary restriction endonuclease digestion of the recombinant DNAs suggested that the middle-size inserts contained a 0.65-kbp tandem duplication of sequences present only one in the small-size insert; this duplication corresponded to the 0.65-kpb terminal duplication of the unintegrated linear Ha-SV DNA. The large-size insert apparently contained a tandem triplication of these terminally located sequences. DNA of all three sized inserts induced foci in NIH 3T3 cells, and focus-forming activity could be rescued from the transformed cells by superinfection with helper virus. Infectivity followed single-hit kinetics, suggesting that the foci were induced by a single molecule. 相似文献
458.
459.
Chloroperoxidase (CPO) catalyzed oxygen insertions are highly enantioselective and hence of immense biotechnological potential. A peroxide activation step is required to give rise to the compound I species that catalyzes this chiral reaction. A side reaction, a catalase type peroxide dismutation, is another feature of CPO's versatility. This work systematically investigates the utilization of different peroxides for the two reactions, i.e. the catalase type reaction and the oxygen insertion reaction. For the oxygen insertion reaction, indene and phenylethyl sulfide were chosen as substrate models for epoxidation and sulfoxidation respectively. The results clearly show that CPO is stable towards hydrogen peroxide and has a total number of turnovers near one million prior to deactivation. The epoxidation reactions terminate before completion because the enzyme functioning in its catalatic mode quickly removes all of the hydrogen peroxide from the reaction mixture. Sulfoxidation reactions are much faster than epoxidation reactions and thus are better able to compete with the catalase reaction for hydrogen peroxide utilization. A preliminary study towards optimizing the reaction system components for a laboratory scale synthetic epoxidation is reported. 相似文献
460.