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121.
122.
Junya Nojima Kazuhiro Kanomata Yumi Takada Toru Fukuda Shoichiro Kokabu Satoshi Ohte Takatora Takada Tohru Tsukui Takamasa S. Yamamoto Hiroki Sasanuma Katsumi Yoneyama Naoto Ueno Yasushi Okazaki Ryutaro Kamijo Tetsuya Yoda Takenobu Katagiri 《The Journal of biological chemistry》2010,285(20):15577-15586
123.
Murata H Sakaguchi M Jin Y Sakaguchi Y Futami J Yamada H Kataoka K Huh NH 《The Journal of biological chemistry》2011,286(9):7182-7189
Accumulating evidence indicates that dysfunction of mitochondria is a common feature of Parkinson disease. Functional loss of a familial Parkinson disease-linked gene, BRPK/PINK1 (PINK1), results in deterioration of mitochondrial functions and eventual neuronal cell death. A mitochondrial chaperone protein has been shown to be a substrate of PINK1 kinase activity. In this study, we demonstrated that PINK1 has another action point in the cytoplasm. Phosphorylation of Akt at Ser-473 was enhanced by overexpression of PINK1, and the Akt activation was crucial for protection of SH-SY5Y cells from various cytotoxic agents, including oxidative stress. Enhanced Akt phosphorylation was not due to activation of phosphatidylinositol 3-kinase but due to activation of mammalian target of rapamycin complex 2 (mTORC2) by PINK1. Rictor, a specific component of mTORC2, was phosphorylated by overexpression of PINK1. Furthermore, overexpression of PINK1 enhanced cell motility. These results indicate that PINK1 exerts its cytoprotective function not only in mitochondria but also in the cytoplasm through activation of mTORC2. 相似文献
124.
Y Hiragi H Inoue Y Sano K Kajiwara T Ueki M Kataoka H Tagawa Y Izumi Y Muroga Y Amemiya 《Journal of molecular biology》1988,204(1):129-140
The small-angle X-ray scattering (SAXS) method using a synchrotron radiation source was applied to the study of the self-aggregation process of tobacco mosaic virus protein (TMVP) at a concentration of 5.0 or 12.0 mg ml-1 in 50 mM or 100 mM-phosphate buffer (ionic strengths approx. 0.1 and 0.2, respectively) at pH 7.2 in the temperature region of 4.8 to 25.0 degrees C. This paper presents the results of static measurements of SAXS. Sedimentation velocity experiments were performed simultaneously under the same conditions. These results are qualitatively parallel to those of the SAXS measurements, although the size of stacked disks derived from the SAXS measurements is larger than that derived from the sedimentation experiments, suggesting a change in the equilibrium conditions in the centrifugal field. Qualitative analysis of the SAXS data with model simulation calculations implies that the aggregation of TMVP consists of two steps: (1) the aggregation of A-protein comprising a few subunits to form double-layered disks; and (2) the random polymerization of double-layered disks by disk-stacking. Increase in temperature, ionic strength or protein concentration induced TMVP to polymerize to form a double-layered disk or a quadruple-layered short rod with consumption of A-proteins, accompanied by a small number of multi-layered short rods. The SAXS results indicate that the A-protein and the multilayered short rods are polydisperse with respect to size and shape, i.e. the mixture of A-protein, double-layered disks and multi-layered short rods coexists in the equilibrium state without pressure-induced partial dissociation of TMPV as observed during normal ultracentrifugation, and even under solution conditions in which the formation of double-layered disks or higher-order aggregates is favored. 相似文献
125.
Che YS Nakamura S Kojima S Kami-ike N Namba K Minamino T 《Journal of bacteriology》2008,190(20):6660-6667
MotA and MotB form the stator of the proton-driven bacterial flagellar motor, which conducts protons and couples proton flow with motor rotation. Asp-33 of Salmonella enterica serovar Typhimurium MotB, which is a putative proton-binding site, is critical for torque generation. However, the mechanism of energy coupling remains unknown. Here, we carried out genetic and motility analysis of a slowly motile motB(D33E) mutant and its pseudorevertants. We first confirmed that the poor motility of the motB(D33E) mutant is due to neither protein instability, mislocalization, nor impaired interaction with MotA. We isolated 17 pseudorevertants and identified the suppressor mutations in the transmembrane helices TM2 and TM3 of MotA and in TM and the periplasmic domain of MotB. The stall torque produced by the motB(D33E) mutant motor was about half of the wild-type level, while those for the pseudorevertants were recovered nearly to the wild-type levels. However, the high-speed rotations of the motors under low-load conditions were still significantly impaired, suggesting that the rate of proton translocation is still severely limited at high speed. These results suggest that the second-site mutations recover a torque generation step involving stator-rotor interactions coupled with protonation/deprotonation of Glu-33 but not maximum proton conductivity. 相似文献
126.
127.
Hirano Y Hayashi H Iemura S Hendil KB Niwa S Kishimoto T Kasahara M Natsume T Tanaka K Murata S 《Molecular cell》2006,24(6):977-984
The 20S proteasome is a catalytic core of the 26S proteasome, a central enzyme in the degradation of ubiquitin-conjugated proteins. It is composed of 14 distinct gene products that form four stacked rings of seven subunits each, alpha(1-7)beta(1-7)beta(1-7)alpha(1-7). It is reported that the biogenesis of mammalian 20S proteasomes is assisted by proteasome-specific chaperones, named PAC1, PAC2, and hUmp1, but the details are still unknown. Here, we report the identification of a chaperone, designated PAC3, as a component of alpha rings. Although it can intrinsically bind directly to both alpha and beta subunits, PAC3 dissociates before the formation of half-proteasomes, a process coupled with the recruitment of beta subunits and hUmp1. Knockdown of PAC3 impaired alpha ring formation. Further, PAC1/2/3 triple knockdown resulted in the accumulation of disorganized half-proteasomes that are incompetent for dimerization. Our results describe a cooperative system of multiple chaperones involved in the correct assembly of mammalian 20S proteasomes. 相似文献
128.
H Arimochi K Kataoka T Kuwahara H Nakayama N Misawa Y Ohnishi 《Biochemical and biophysical research communications》1999,262(2):322-327
We tried to inhibit the formation of azoxymethane-induced aberrant crypt foci (ACF) in the rat intestine by feeding a culture of a beta-glucuronidase-deficient Escherichia coli strain or a cell suspension of a lycopene-producing E. coli strain. Feeding of the former culture to F344 rats did not decrease fecal beta-glucuronidase activity or the number of ACF compared with the control beta-glucuronidase-proficient groups. However, a significant positive correlation between the fecal beta-glucuronidase activity and the ACF number was observed among groups treated with cultures of beta-glucuronidase-proficient and -deficient strains. In the group treated with lycopene-producing cells, the number of ACF was significantly lower than that in the control group. A vegetable juice containing a larger amount of lycopene than a cell suspension of the lycopene-producing E. coli also decreased the number of ACF to the same extent as a cell suspension of the lycopene-producing bacteria. These results suggest that feeding of the beta-glucuronidase-deficient E. coli is not very effective in preventing colon carcinogenesis, although activity of the fecal beta-glucuronidase is associated with AOM-induced ACF formation, and that lycopene-producing intestinal bacteria can effectively prevent colon carcinogenesis. 相似文献
129.
Ryutaro Utsumi Manjiro Noda Makoto Kawamukai Tohru Komano 《FEMS microbiology letters》1988,50(2-3):217-221
Abstract An adenylate cyclase gene ( cya ) mutant was mutagenized and an adenosine 3,5-cyclic monophosphate (cAMP)-requiring mutant (KM8161) was obtained on Davis minimal medium containing glucose in the presence or absence of cAMP. KM8161 also required N -acetylglucosamine for its growth instead of cAMP. Furthermore, the mutant could use neither glucosamine nor N -acetylglucosamine as the carbon source. These results indicate that the cAMP-requiring property is due to multiple mutations of a few genes involved in amino sugar metabolism in addition to cya . By genetic analysis of KM8161, one gene, which was tentatively termed cidA and located near 2 min on the chromosomal map, proved to be defective. Reversion of cidA mutation in KM8161 resulted in recovery of not only the cAMP-requiring phenotype but also non-utilization of amino sugars. When both cAMP and N -acetylglucosamine or glucosamine were added to the culture medium for KM8161, only N -acetylglucosamine could be utilized as the carbon source. These studies s strongly suggest that the cidA or cya mutation in KM8161 causes deficiency in different stages of amino sugar metabolism and the regulatory circuit of growth by cAMP is mediated via control of N -acetylglucosamine metabolism. 相似文献
130.
Tohru Takata Sun Nyunt Wai Akemi Takade Yoshiro Sawae Junko Ono Kazunobu Amako 《Microbiology and immunology》1995,39(9):639-645
From plate cultures of Campylobacter jejuni grown in room air a particulate protein of 62 kDa was isolated by ion-exchange chromatography. The protein had a square shape from the side view but when viewed from the top it had a star-shaped structure. The molecular size of the whole particle determined by gel filtration was 850 kDa which suggested the presence of 14 subunits of 62 kDa in each particle. The N-terminal 37 amino residues showed more than 80% homology with the sequence of these heat shock protein (HSP) 60 homologs of Chlamydia trachomatis, Helicobacter pylori, and Escherichia coli (GroEL). This protein is immunologically cross-reactive with the antiserum for the 60-kDa HSP of Yersinia enterocolitica. Production of the 62-kDa protein increased under heat stress and growth in an aerobic atmospheric environment. From these observations we concluded that the 62-kDa protein is a Campylobacter stress protein (Cj62) which belongs to the HSP 60 family. 相似文献