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111.
The absorbance change at 515 nm induced by a short (7.6 µsec)light flash in spinach chloroplasts was studied at sub-roomtemperatures in relation to rapid H+ uptake into chloroplasts. Lowering of temperature caused a marked decrease in the rateof recovery of 515-nm absorbance change after a flash illumination.Initial rate of rapid H+ uptake, measured with absorbance changeof bromcresol purple (BCP), was also reduced at lower temperatures,in a parallel fashion. Half-recovery time of the absorbancechange at 515 nm and rise-time of the pH-indicating absorbanceincrease of BCP coincided well at each temperature studied.Values of the calculated activation energy for these two processeswere almost the same. The parallelism between the 515-nm absorbance change and therapid H+ uptake after a single flash illumination was also observedwhen the electric field decay and/or H+ translocation were acceleratedby ionophorous antibiotics, carbonylcyanide m-chlorophenylhydrazoneor phenazine methosulfate. From these results, it is suggestedthat the rapid H+ uptake into chloroplast is chemically coupledto electron transfer and at the same time diffusion- (or transport-)controlled. Membrane potential, reflected in the 515-nm absorbancechange is dissipated with the rapid H+ influx. A model for theelectron-transfer-coupled H+ translocation involving a plastosemiquinoneloop is presented. Dissipation of the illumination-formed inside-positivemembrane potential by the influx of H+ is explained by the model. (Received September 17, 1976; ) 相似文献
112.
Chemiluminescence of luminol (CLL) was induced by illuminatedspinach chloroplast fragments. CLL was diminished by superoxidedismutase or under anaerobic conditions and increased by anautoxidizable electron acceptor, methyl viologen. The optimumpH for CLL was 10.0-10.5. Ferredoxin and cytochrome c reducing substance (CRS) did notaffect the intensity of CLL, but accelerated the dark decayin the absence of methyl viologen. In the presence of methylviologen, ferredoxin and CRS lowered the intensity and acceleratedthe dark decay. 3-(4-Chlorophenyl)-1,1-dimethylurea diminishedCLL. Carbonylcyanide m-chlorophenylhydrazone accelerated theinitial rate of CLL increase at low concentration and inhibitedit at high concentration. Half-decay time of CLL after the cessationof light was shortened by inhibiting electron transfer on theoxidizing side of photosystem II. We conclude that most of the CLL observed in illuminated chloroplastsis dependent on O2. The results also suggest that O2is reduced by reduced ferredoxin or CRS and oxidized on theoxidizing side of photosystem II. The half life of O2in illuminated chloroplasts was estimated from the half-decaytime of CLL to be a few sec.
1 Present address: Kyushu Dental College, Department of Biology,Kitakyushu 803, Japan. (Received May 30, 1977; ) 相似文献
113.
Flash-induced 515-nm and 475-nm absorbance changes in spinachchloroplasts were investigated in the presence of 3-(3,4-dichlorophenyl)-l,l-dimethylurea (DCMU). DCMU reduced the magnitude of the 515-nmabsorbance change by half and almost completely diminished theabsorbance change at 475-nm. The reduction of the 475-nm absorbancechange paralleled the inhibition of the photosystem II (PS II)light reaction. When chloroplasts were illuminated with red or far-red light,the ratio of A515/A475 changed depending on the photosystemactivated. Wide variations in the A515/A475 ratio observed insubchloroplast particle preparations were probably due to theenrichment and activation of one of the photosystems. We suggest that the photosynthetic pigments in the thylakoidmembrane are heterogeneously distributed, and chlorophyll bmolecules that may be responsible for the 475- nm absorbancechange are affected by the local field formed by the PS II lightreaction. On the other hand, an electric field due to the PSI reaction probably induced the absorbance change at 515-nm (Received February 24, 1978; ) 相似文献
114.
Biosynthesis of ribulose-1,5-bisphosphate carboxylase in spinach leaf protoplasts 总被引:2,自引:1,他引:1
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Spinach leaf (Spinacia oleracea L. var. Kyoho) protoplasts sustain protein-synthesizing activity as measured by the incorporation of [14C]-leucine into the protein fraction both in the light and in the dark. By the immunoprecipitation of ribulose-1,5-bisphosphate (RuP2) carboxylase with rabbit antibody raised against the purified spinach enzyme preparation, it was found that approximately 7% of the total radiocarbon incorporated into the protein fraction in the light was in the carboxylase molecules. However, there was no measurable net increase observed in the content of the enzyme protein in the experimental conditions employed. It was found that both chloramphenicol and cycloheximide inhibited the incorporation of [14C]leucine into RuP2 carboxylase and its constituent subunits, as measured by the immunoprecipitation of the enzyme molecule and its subunits, A and B. 相似文献
115.
The shift of the carotenoid absorption spectrum induced by illumination and valinomycin-K+ addition was investigated in membrane structures with different characteristics and opposite sidednesses isolated from Rhodopseudomonas sphaeroides. Right-side-out membrane structures were prepared by isotonic lysozyme-EDTA treatment of the cells (spheroplasts) and by hypotonic treatment of spheroplasts (spheroplast membrane vesicles). Inside-out membrane structures (“chromatophores”) were obtained by treating spheroplast membrane vesicles by French press or sonication.The membrane structures with either sidedness showed the same light-induced change of the “red shift” type. However, the absorbance change by K+ addition in the presence of valinomycin in the right-side-out membrane structures were opposite to that in the inverted vesicles, “blue shift” in the former and “red shift” in the latter. The carotenoid absorbance change was linear to membrane potential, calculated from the concentration of KCl added, with a reference on the cytoplasmic side, through positive and negative ranges. 相似文献
116.
Seiichi Tokura Yoshihiro Ikeuchi Shin-ichiro Nishimura Norio Nishi 《International journal of biological macromolecules》1983,5(4):249
A new type polyamide containing a glucose unit in the main chain has been synthesized by the polymerization of C1, C3, C4 blocked C6-carboxymethylglucosamine, prepared from chitin. The deblocking procedure gave the water-soluble polyamide, of MW 1.5 × 104, which can be regarded as a model for the recognition site of lectin. 相似文献
117.
H Koga N Mori H Yamada Y Nishimura K Tokuda K Kato T Imoto 《Journal of biochemistry》1991,110(6):939-944
We found that rat cathepsin H showed strong transacylation activity under physiological conditions. It is a feature of cathepsin H to utilize amino acid amides not only as acyl-acceptors but also as acyl-donors in the reaction. The pH-dependence of the transacylation activity was distinct from those of other papain-superfamily proteases. The alkaline limb (pKapp = 7.5) could be regarded as the pKa of the alpha-amino group of the acyl-donor, which was also involved in the original amino-peptidase activity. The acidic limb (pKapp = 5.8) was suggested to be involved in the deacylation step, where amino acid amide attacked the acyl-intermediate as a nucleophile in place of water in the hydrolysis. Although the N alpha-deprotonated acyl-acceptor, which is supposed to govern the nucleophilic attack, has a small population in the acidic pH range (above pH5), the transacylation was detectable even at the acidic pH-range because of the high S1'-site binding ability and suitable nucleophilicity of the acyl-acceptor. In the transacylation between various amino acid amides, the S1 and S1' site appeared to prefer hydrophobic residues without and regardless of a branch at beta-carbon, respectively. From these results and the sequence homology in the papain superfamily, we concluded that the reaction was governed by the acyl-donor having a protonated amino group, the acyl-acceptor having a deprotonated amino group and the remarkable hydrophobic character (especially favoring tryptophan amide) of the S1' site, presumably reflecting the good conservation of Trp177 in papain-superfamily proteases. 相似文献
118.
H Suga K Shirabe T Yamamoto M Tasumi M Umeda C Nishimura A Nakazawa M Nakanishi Y Arata 《The Journal of biological chemistry》1991,266(21):13537-13543
Structural changes upon binding to the membrane of a COOH-terminal channel-forming thermolytic fragment of colicin E1 have been studied by means of a variety of spectroscopic techniques. Circular dichroism measurements show that the thermolytic fragment predominantly takes a helical structure in aqueous and detergent solutions. Fourier transform infrared spectroscopic measurements indicate that the content of the beta-structure is significantly increased when the thermolytic fragment is bound to vesicles. On the basis of the result of tryptophan fluorescence measurements, we have concluded that each of the three tryptophan residues of the thermolytic fragment exists in different environments, i.e. one is buried in the lipid bilayer, one exists on the cis side of the vesicles, and one exists near the surface of the lipid bilayer. The Fourier transform infrared and fluorescence data have been used along with the crystal structure of colicin A, which is highly homologous to colicin E1 in structure and function, to propose a model of the thermolytic fragment bound to the lipid vesicles. 相似文献
119.
M Eto H Mayumi Y Nishimura T Maeda Y Yoshikai K Nomoto 《Journal of immunology (Baltimore, Md. : 1950)》1991,147(8):2439-2446
The mechanisms of cyclophosphamide (CP)-induced tolerance were investigated by comparing with those of neonatally induced tolerance. When C3H/He Slc (C3H; H-2k, Mls-1b) mice were given i.v. either AKR/J Sea (AKR; H-2k, Mls-1a) or (AKR x C3H)F1 (AKC3F1; H-2k, Mls-1a/b) spleen cells and treated i.p. with CP 2 days later, a long-lasting skin allograft tolerance to AKR was induced in each case without any signs of graft-vs-host disease (GVHD). However, typical signs of GVHD were observed in the C3H mice neonatally tolerized with AKR spleen cells, but not in those tolerized with AKC3F1 spleen cells. The expression of TCR V beta 6, which is strongly correlated with the reactivity to Mls-1a Ag (of donor AKR origin), in the periphery was quite different between the two types of tolerant C3H mice. Namely, in the lymph nodes of the C3H mice tolerized with AKR spleen cells and CP, only CD4(+)-V beta 6+, but not CD8(+)-V beta 6+, T cells selectively disappeared, whereas both of them were abrogated in the lymph nodes of the C3H mice neonatally tolerized of AKR. By contrast, in the thymus of the two types of tolerant C3H mice, both CD4+CD8- and CD4-CD8+ single-positive thymocytes expressing TCR V beta 6 were clonally deleted, suggesting that the thymic involvement was the same in each type of tolerance. These results suggest that the preferential disappearance of the CD4(+)-V beta 6+ T cells (of host origin) and the effector T cells of GVHD (of donor origin) occurred only in the periphery of the C3H mice tolerized with AKR spleen cells plus CP and was attributable to the destruction of Ag-stimulated T cells by the CP treatment. In contrast, the intrathymic clonal deletion of immature V beta 6+ T cells was a common mechanism for both of the tolerance induction systems. 相似文献
120.
Chemical modification and 1H-NMR studies on the receptor-binding region of human interleukin 6 总被引:1,自引:0,他引:1
C Nishimura T Ekida S Masuda K Futatsugi S Itoh K Yasukawa T Kishimoto Y Arata 《European journal of biochemistry》1991,196(2):377-384
Oxidation of the Met residues of human interleukin 6 (IL-6) molecule has been performed. Reactivity of Met for the oxidation reaction was found to decrease in the order of Met50, Met118, Met185, Met162, and Met68. Chemical modifications involving oxidation and carboxypeptidase A digestion of IL-6 have led to the assignments of the methyl proton resonances of Met162 and Met185, respectively. The hydroxynitrobenzyl chromophore attached to Trp158 in the IL-6 molecule showed a different absorption spectrum when the labeled IL-6 was bound to the soluble IL-6 receptor. This result indicates that Trp158 is near the receptor-binding region in IL-6. On the basis of the 1H-NMR and chemical modification data, it has been concluded that Trp158 is in spatial proximity to Met162, His165 and Met185. The receptor-binding activity decreased with an increase in the number of oxidized Met residues. Of these five Met residues, Met162 was the residue in which the receptor-binding activity decreased in the most parallel degree with that of the oxidation reaction. 相似文献