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51.
Adachi O Ano Y Toyama H Matsushita K 《Bioscience, biotechnology, and biochemistry》2006,70(11):2786-2789
NADP-Dependent shikimate dehydrogenae (SKDH, EC 1.1.1.25) was purified from Gluconobacter oxydans IFO 3244. SKDH showed a single protein band on native-PAGE accompanying enzyme activity. It required NADP exclusively and catalyzed only the shuttle reaction between shikimate and 3-dehydroshikimate. The optimum pH for shikimate oxidation and 3-dehydroshikimate reduction was found at pH 10 and 7 respectively. SKDH proved to be a useful catalyst for shikimate production from 3-dehydroshikimate. 相似文献
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53.
Mutations in the RECQL4 helicase gene have been linked to Rothmund-Thomson syndrome (RTS), which is characterized by poikiloderma, growth deficiency, and a predisposition to cancer. Examination of RECQL4 subcellular localization in live cells demonstrated a nucleoplasmic pattern and, to a lesser degree, staining in nucleoli. Analysis of RECQL4-GFP deletion mutants revealed two nuclear localization regions in the N-terminal region of RECQL4 and a nucleolar localization signal at amino acids 376-386. RECQL4 localization did not change after treatment with the DNA-damaging agents bleomycin, etoposide, UV irradiation and gamma irradiation, in contrast to the Bloom and Werner syndrome helicases that relocate to distinct nuclear foci after damage. However, in a significant number of cells exposed to hydrogen peroxide or streptonigrin, RECQL4 accumulated in nucleoli. Using a T7 phage display screen, we determined that RECQL4 interacts with poly(ADP-ribose) polymerase-1 (PARP-1), a nuclear enzyme that promotes genomic integrity through its involvement in DNA repair and signaling pathways. The RECQL4 nucleolar localization was inhibited by pretreatment with a PARP-1 inhibitor. The C-terminal portion of RECQL4 was found to be an in vitro substrate for PARP-1. These results demonstrate changes in the intracellular localization of RECQL4 in response to oxidative stress and identify an interaction between RECQL4 and PARP-1. 相似文献
54.
Hattori H Yakushi T Matsutani M Moonmangmee D Toyama H Adachi O Matsushita K 《Applied microbiology and biotechnology》2012,95(6):1531-1540
We succeeded in obtaining a strain adapted to higher temperature from a thermotolerant strain, Gluconobacter frateurii CHM43, for sorbose fermentation. The adapted strain showed higher growth and L: -sorbose production than original CHM43 strain at higher temperature around 38.5-40?°C. It was also shown to be useful even with the fermentation without temperature control. To understand the sorbose fermentation ability of the adapted strain at higher temperature, D: -sorbitol-oxidizing respiratory chain was compared with the CHM43 strain and the adapted strain. We found that the activity of pyrroloquinoline quinone (PQQ)-dependent glycerol dehydrogenase (GLDH), which is a primary dehydrogenase of the respiratory chain and responsible for L: -sorbose production, was decreased when the temperature increased, but the decreased activity of GLDH was recovered by the addition of PQQ. Since the adapted strain was found to produce more PQQ than the CHM43 strain, it was suggested that the adapted strain keeps GLDH as holoenzyme with the increased PQQ production, and thus produces more L: -sorbose and grows better under higher temperature. 相似文献
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57.
Kanzaki T Iizuka R Takahashi K Maki K Masuda R Sahlan M Yébenes H Valpuesta JM Oka T Furutani M Ishii N Kuwajima K Yohda M 《The Journal of biological chemistry》2008,283(50):34773-34784
ATP drives the conformational change of the group II chaperonin from the open lid substrate-binding conformation to the closed lid conformation to encapsulate an unfolded protein in the central cavity. The detailed mechanism of this conformational change remains unknown. To elucidate the intra-ring cooperative action of subunits for the conformational change, we constructed Thermococcus chaperonin complexes containing mutant subunits in an ordered manner and examined their folding and conformational change abilities. Chaperonin complexes containing wild-type subunits and mutant subunits with impaired ATP-dependent conformational change ability or ATP hydrolysis activity, one by one, exhibited high protein refolding ability. The effects of the mutant subunits correlate with the number and order in the ring. In contrast, the use of a mutant lacking helical protrusion severely affected the function. Interestingly, these mutant chaperonin complexes also exhibited ATP-dependent conformational changes as demonstrated by small angle x-ray scattering, protease digestion, and changes in fluorescence of the fluorophore attached to the tip of the helical protrusion. However, their conformational change is likely to be transient. They captured denatured proteins even in the presence of ATP, whereas addition of ATP impaired the ability of the wild-type chaperonin to protect citrate synthase from thermal aggregation. These results suggest that ATP binding/hydrolysis causes the independent conformational change of the subunit, and further conformational change for the complete closure of the lid is induced and stabilized by the interaction between helical protrusions. 相似文献
58.
Adachi O Ano Y Akakabe Y Shinagawa E Matsushita K 《Applied microbiology and biotechnology》2008,81(1):143-151
Chlorogenate hydrolase (EC 3.1.1.42, CHase) was highly induced in mycelia of Aspergillus sojae AKU 3312 grown in Czapek medium containing either instant coffee powder or coffee pulp as inducer. No CHase formation was
observed in the mycelia when cultivated without the inducer. CHase was purified readily from CHase-induced mycelia to high
homogeneity, and the purified CHase revealed the molecular weight of 180,000 consisting of two identical subunits of 88 kDa.
Equimolar quinate (QA) and caffeate (CA) were confirmed on hydrolysis of chlorogenate (CGA). The purified CHase was only useful
for a laboratory scale hydrolysis of CGA. For practical QA and CA production using scaled up hydrolysis of vegetable extracts
of natural CGA resources, the enzyme activity of purified CHase decreased and denatured irreversibly. Preparation of coffee
pulp koji and its application to QA and CA production were proposed instead of purified CHase. When coffee pulp koji was heated at
60°C for 30 min, CHase survived without any appreciable loss of enzyme activity while vegetative mycelial growth and spore
germination were terminated. The heated coffee pulp koji thus prepared was effective itself as stable immobilized catalyst
of CHase for QA and CA production from vegetable CGA resources such as coffee powders, coffee pulp, and others. 相似文献
59.
Soemphol W Adachi O Matsushita K Toyama H 《Bioscience, biotechnology, and biochemistry》2008,72(3):842-850
Two different membrane-bound enzymes oxidizing D-sorbitol are found in Gluconobacter frateurii THD32: pyroloquinoline quinone-dependent glycerol dehydrogenase (PQQ-GLDH) and FAD-dependent D-sorbitol dehydrogenase (FAD-SLDH). In this study, FAD-SLDH appeared to be induced by L-sorbose. A mutant defective in both enzymes grew as well as the wild-type strain did, indicating that both enzymes are dispensable for growth on D-sorbitol. The strain defective in PQQ-GLDH exhibited delayed L-sorbose production, and lower accumulation of it, corresponding to decreased oxidase activity for D-sorbitol in spite of high D-sorbitol dehydrogenase activity, was observed. In the mutant strain defective in PQQ-GLDH, oxidase activity with D-sorbitol was much more resistant to cyanide, and the H(+)/O ratio was lower than in either the wild-type strain or the mutant strain defective in FAD-SLDH. These results suggest that PQQ-GLDH connects efficiently to cytochrome bo(3) terminal oxidase and that it plays a major role in L-sorbose production. On the other hand, FAD-SLDH linked preferably to the cyanide-insensitive terminal oxidase, CIO. 相似文献
60.
Spatial variations in xylem sap flux density in evergreen oak trees with radial-porous wood: comparisons with anatomical observations 总被引:1,自引:0,他引:1
Makiko Tateishi Tomo’omi Kumagai Yasuhiro Utsumi Toshihiro Umebayashi Yasuki Shiiba Kazunobu Inoue Kiyohiro Kaji Keiichiro Cho Kyoichi Otsuki 《Trees - Structure and Function》2008,22(1):23-30
To estimate whole-tree water use when employing sap flow measurements, integration of the sap flux density (F
d) over the sapwood area is needed. Accordingly, it is necessary to obtain information on the characteristics of stem water
transportation such as spatial variations in F
d and the active xylem area in the stem cross-section. Although evergreen oak trees with radial-porous wood represent a major
component of secondary forests in western Japan, detailed information on their stem water transportation characteristics remains
unclear. In the present study, we used the heat dissipation method (Granier method) to conduct measurements of azimuthal and
radial variations in the F
d of Quercus glauca Thunb. ex Murray, a representative evergreen broad-leaved tree in western Japan. Further, by analyzing the anatomy of the
xylem structure, we examined why F
d varies spatially in the stem cross-section. By using a dye solution injected into a radial hole bored into the tree trunk,
we confirmed that the entire stem is hydroactive. We also compared the spatial variations in F
d and water conductivity per xylem area (K
s) which were estimated by using the observed vessel diameters and their density over the stem cross-section and Hagen–Poiseuille’s
law. Azimuthal and radial variations in F
d reached about 60 and 50% of the maximum values, respectively, and could be explained by spatial variation in K
s. As a result, we obtained statistical parameters describing the spatial variation in F
d in Q. glauca and determined that whole-tree water use estimated from measurements in one direction had at most ±20% potential errors for
studied trees. 相似文献