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51.
Yamaguchi F Umeda Y Shimamoto S Tsuchiya M Tokumitsu H Tokuda M Kobayashi R 《The Journal of biological chemistry》2012,287(17):13787-13798
PP5 is a unique member of serine/threonine phosphatases comprising a regulatory tetratricopeptide repeat (TPR) domain and functions in signaling pathways that control many cellular responses. We reported previously that Ca(2+)/S100 proteins directly associate with several TPR-containing proteins and lead to dissociate the interactions of TPR proteins with their client proteins. Here, we identified protein phosphatase 5 (PP5) as a novel target of S100 proteins. In vitro binding studies demonstrated that S100A1, S100A2, S100A6, and S100B proteins specifically interact with PP5-TPR and inhibited the PP5-Hsp90 interaction. In addition, the S100 proteins activate PP5 by using a synthetic phosphopeptide and a physiological protein substrate, Tau. Overexpression of S100A1 in COS-7 cells induced dephosphorylation of Tau. However, S100A1 and permanently active S100P inhibited the apoptosis signal-regulating kinase 1 (ASK1) and PP5 interaction, resulting the inhibition of dephosphorylation of phospho-ASK1 by PP5. The association of the S100 proteins with PP5 provides a Ca(2+)-dependent regulatory mechanism for the phosphorylation status of intracellular proteins through the regulation of PP5 enzymatic activity or PP5-client protein interaction. 相似文献
52.
Ryoji Shinya Yuko Takeuchi Keita Ichimura Shuhei Takemoto Kazuyoshi Futai 《Applied Entomology and Zoology》2012,47(4):341-350
Pine wilt disease (PWD) caused by the pine wood nematode, Bursaphelenchus xylophilus (Steiner and Buhrer) Nickle, has become a worldwide problem. The pathogenic mechanism of PWD continues to remain controversial, which in part may be attributed to the lack of universal materials of B. xylophilus with a high genetic purity. The intrinsic high genetic diversity in B. xylophilus isolates/populations must be a fatal obstacle for performing forward genetics and other molecular approaches to controlling them. We conducted a series of successive full-sib mating of conventional isolates of B. xylophilus to establish a set of inbred strains. Using DNA markers, we also determined their genetic diversity and biological characteristics, such as virulence and reproductive ability. Consequently, the newly established strains yielded a higher genetic purity than the conventional isolates and showed varying virulence despite sharing a common ancestor. The significance of this study lies not only in establishing a set of inbred strains of B. xylophilus with the certification of their purity but also in demonstrating that avirulent strain(s) with a genotype similar to the virulent strains can be obtained by simple successive full-sib mating. This technique is one of the most powerful tools for elucidating the pathogenic mechanism(s) of PWD. 相似文献
53.
M Yamamoto M Miyai Y Matsumoto R Tsuboi T Hibino 《The Journal of biological chemistry》2012,287(39):32825-32834
The maturation and activation mechanisms of caspases are generally well understood, except for those of caspase-14, which is activated at the onset of keratinocyte terminal differentiation. We investigated the possible involvement of epidermal proteases expressed in the late stage of differentiation, and found that the chymotrypsin-like serine protease kallikrein-related peptidase-7 (KLK7) cleaved procaspase-14 at Tyr(178), generating an intermediate form that consists of a large (20 kDa) and a small subunit (8 kDa). We prepared an antibody directed to this cleavage site (h14Y178 Ab), and confirmed that it recognized a 20-kDa band formed when procaspase-14 was incubated with chymotrypsin or KLK7. We then constructed a constitutively active form of the intermediate, revC14-Y178. The substrate specificity of revC14-Y178 was completely different from that of caspase-14, showing broad specificity for various caspase substrates except WEHD-7-amino-4-trifluoromethylcoumarin (AFC), the preferred substrate of active, mature caspase-14. K(m) values for VEID-AFC, DEVD-AFC, LEVD-AFC, and LEHD-AFC were 0.172, 0.261, 0.504, and 0.847 μm, respectively. We confirmed that the mature form of caspase-14 was generated when procaspase-14 was incubated with KLK7 or revC14-Y178. Expression of constitutively active KLK7 in cultured keratinocytes resulted in generation of both the intermediate form and the mature form of caspase-14. Immunohistochemical analysis demonstrated that the intermediate form was localized at the granular layer. Our results indicate that regulation of procaspase-14 maturation during terminal differentiation is a unique two-step process involving KLK7 and an activation intermediate of caspase-14. 相似文献
54.
Ito S Fujiyama-Nakamura S Kimura S Lim J Kamoshida Y Shiozaki-Sato Y Sawatsubashi S Suzuki E Tanabe M Ueda T Murata T Kato H Ohtake F Fujiki R Miki T Kouzmenko A Takeyama K Kato S 《Molecular cell》2012,45(4):494-504
Cell cycle-dependent expression of canonical histone proteins enables newly synthesized DNA to be integrated into chromatin in replicating cells. However, the molecular basis of cell cycle-dependency in the switching of histone gene regulation remains to be uncovered. Here, we report the identification and biochemical characterization of a molecular switcher, HERS (histone gene-specific epigenetic repressor in late S phase), for nucleosomal core histone gene inactivation in Drosophila. HERS protein is phosphorylated by a cyclin-dependent kinase (Cdk) at the end of S-phase. Phosphorylated HERS binds to histone gene regulatory regions and anchors HP1 and Su(var)3-9 to induce chromatin inactivation through histone H3 lysine 9 methylation. These findings illustrate a salient molecular switch linking epigenetic gene silencing to cell cycle-dependent histone production. 相似文献
55.
56.
Distinct apoptotic response of the type I/type II cells against Fas-ligand stimulation is considered to arise from the difference in dominant signaling pathways involved. In the type I cells, apoptotic signaling predominantly takes place via the direct activation of caspase-3 by activated caspase-8 (D channel) while mitochondrial pathway (M channel) plays a major role in the type II cells. To elucidate the selection mechanism of dominant pathway, we carried out systematic model analysis of the Fas signaling-induced apoptosis network. An increase in the expression level of caspase-8 induced a switch of dominant pathway from M- to D-channel (M–D transition), showing a phenotypic change from type II to type I cells. With the aid of sensitivity analysis and kinetic considerations, we succeeded in constructing a minimal network model relevant for the M–D transition, which revealed that mechanistic origin of the transition lies in the competition between the activated forms of caspase-8 and caspase-9 for their common substrate caspase-3. The pathway dominance was found to be primarily controlled by the balance between the activation rate of caspase-8 and the initial level of caspase-9. In the full network model, we showed that differential formation ability of the death-inducing signaling complex (DISC) can also induce M–D transition, in accordance with the experimental observations. 相似文献
57.
Khan NA Githiri SM Benitez ER Abe J Kawasaki S Hayashi T Takahashi R 《TAG. Theoretical and applied genetics. Theoretische und angewandte Genetik》2008,117(4):479-487
Early-maturing cultivars of soybean [Glycine max (L.) Merr.] native to the shores of the Sea of Okhotsk (Sakhalin and Kuril Islands) and eastern Hokkaido (northern Japan) have a strong tendency to produce cleistogamous flowers throughout their blooming period. A previous study revealed that cleistogamy is controlled by a minimum of two genes with epistatic interaction, one of which is associated with a maturity gene responsible for insensitivity to incandescent long daylength (ILD). This study was conducted to determine the genetic basis of cleistogamy in more detail by QTL mapping. F(2) to F(4) progenies derived from a cross between a cleistogamous cv. Karafuto-1 and a chasmogamous cv. Toyosuzu were used. A molecular linkage map spanning 2,180 cM comprising 500 markers was constructed using 89 F(2) plants. The markers were distributed in 25 linkage groups. An interval mapping method to analyze categorical traits identified four QTLs for cleistogamy, cl1, cl2, cl3 and cl4, in molecular linkage groups (MLGs) C2, D1a, I and L, respectively. Alleles derived from Karafuto-1 had additive effects to increase probability of cleistogamy at cl3 and cl4, whereas the alleles had additive effects to decrease the probablity at cl1 and cl2. Progeny test confirmed the effects of cl3, which had the highest LOD score (5.20). Composite interval mapping revealed four QTLs for flowering date, fd5-fd8. Judging from relative location with markers and association with ILD responses, fd7 and fd8 may correspond to maturity genes E4 and E3, respectively. cl3 and cl4 were located at similar positions as fd7 and fd8, suggesting that the two maturity genes may control cleistogamy by either pleiotropy or close linkage. 相似文献
58.
Eguchi R Naitou H Kunimasa K Ayuzawa R Fujimori Y Ohashi N Kaji K Ohta T 《Proteomics》2008,8(14):2897-2906
We recently reported that hypoxia could induce the breakdown of capillary-like tubes formed by human umbilical vein endothelial cells (HUVECs) and that this breakdown was regulated by p38 and not by a caspase cascade, although the exact molecular mechanisms remain unknown. The aim of this study was to identify proteins that regulated hypoxia-induced tube breakdown through p38-regulated and caspase-independent mechanisms. The involvement of adhesion proteins, integrins, VE-cadherin, PECAM-1, and occludin was first investigated. Although some of these proteins decreased after hypoxia, none of them met the conditions of being quantitatively restored by p38 inhibition but not by caspase inhibition. We then conducted 2-D DIGE coupled with MALDI-TOF/TOF-MS to identify altered protein expression. The differential proteomic analysis of tube-forming HUVECs treated with normoxia or hypoxia and treated with hypoxia in the presence or absence of SB203580, a specific p38 inhibitor, revealed the involvement of heat shock proteins in this tube breakdown. We also confirmed that the amount of HSP27 and HSP70 changed in a p38-regulated and caspase-independent manner during hypoxia. Knocking down HSP27 expression using RNAi further augmented hypoxia-induced tube breakdown. Taken together, it was shown that p38-regulated and caspase-independent reduction of HSP27 plays an important role in hypoxia-induced tube breakdown. 相似文献
59.
Fukui K Nakagawa N Kitamura Y Nishida Y Masui R Kuramitsu S 《The Journal of biological chemistry》2008,283(48):33417-33427
DNA recombination events need to be strictly regulated, because an increase in the recombinational frequency causes unfavorable alteration of genetic information. Recent studies revealed the existence of a novel anti-recombination enzyme, MutS2. However, the mechanism by which MutS2 inhibits homologous recombination has been unknown. Previously, we found that Thermus thermophilus MutS2 (ttMutS2) harbors an endonuclease activity and that this activity is confined to the C-terminal domain, whose amino acid sequence is widely conserved in a variety of proteins with unknown function from almost all organisms ranging from bacteria to man. In this study, we determined the crystal structure of the ttMutS2 endonuclease domain at 1.7-angstroms resolution, which resembles the structure of the DNase I-like catalytic domain of Escherichia coli RNase E, a sequence-nonspecific endonuclease. The N-terminal domain of ttMutS2, however, recognized branched DNA structures, including the Holliday junction and D-loop structure, a primary intermediate in homologous recombination. The full-length of ttMutS2 digested the branched DNA structures at the junction. These results indicate that ttMutS2 suppresses homologous recombination through a novel mechanism involving resolution of early intermediates. 相似文献
60.
Ryoji Kobayashi James B. Field 《Biochimica et Biophysica Acta (BBA)/General Subjects》1978,539(4):411-419
Phosphodiesterase activator protein has been purified from bovine brain and its properties compared with that of bovine heart troponin C. While both proteins activate ‘activator depleted phosphodiesterase’ in the presence of Ca2+, a 200-fold greater concentration of troponin C was necessary and the maximal effect was less than that with the activator protein. The activator protein formed a Ca2+ -dependent complex with bovine heart troponin I during electrophoresis in 6 M urea-polyacrylamide gel. However, the mobility of this complex was different from that of troponin C · troponin I complex and the affinity between troponin C and troponin I was much stronger than that between the activator protein and troponin I. Ca2+ induced changes in the electrophoretic mobility of activator protein and the pattern of its elution during gel filtration which were similar to the Ca2+-dependent conformational changes observed with troponin C. Bovine heart troponin I reduced basal, troponin C and the activator protein stimulation of phosphodiesterase activity. These results are compatible with the concept that phosphodiesterase activator protein and troponin C might have a functional relationship. 相似文献