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121.
122.
Shin-ichi Makino Tatsuya Sawasaki Yaeta Endo Kazuyuki Takai 《Biochemical and biophysical research communications》2010,397(4):762-1054
Wheat RNA ligase contains 5′-hydroxyl kinase, 2′,3′-cyclic phosphate 3′-phosphodiesterase, and 5′-phosphate 2′-phosphate-3′-hydroxyl RNA ligase activities in a 110-kDa polypeptide. Taking advantage of a wheat cell-free protein production system, we prepared various fragments containing a part of the enzyme. The method allowed us to check the activities of the fragments rapidly, eliminating the time-consuming cloning and sequencing steps for the expression of the fragment proteins. The results showed that each of the three activities can be assigned to a non-overlapping domain that does not require the presence of the other part(s) of the enzyme for its activity. This contrasts to the case of yeast tRNA ligase, in which the central kinase domain has been suggested to require to be tethered to one of the flanking domains for its activity. 相似文献
123.
Involvement of the endocannabinoid system in periodontal healing 总被引:1,自引:0,他引:1
Sayaka Kozono Kamal Krishna Biwasa Yumiko Nakajima Yutaka Yonamine Salunya Tancharoen Kazuyuki Noguchi 《Biochemical and biophysical research communications》2010,394(4):928-933
Endocannabinoids including anandamide (AEA) and 2-arachidonoylglycerol (2-AG) are important lipid mediators for immunosuppressive effects and for appropriate homeostasis via their G-protein-coupled cannabinoid (CB) receptors in mammalian organs and tissues, and may be involved in wound healing in some organs. The physiological roles of endocannabinoids in periodontal healing remain unknown. We observed upregulation of the expression of CB1/CB2 receptors localized on fibroblasts and macrophage-like cells in granulation tissue during wound healing in a wound-healing model in rats, as well as an increase in AEA levels in gingival crevicular fluid after periodontal surgery in human patients with periodontitis. In-vitro, the proliferation of human gingival fibroblasts (HGFs) by AEA was significantly attenuated by AM251 and AM630, which are selective antagonists of CB1 and CB2, respectively. CP55940 (CB1/CB2 agonist) induced phosphorylation of the extracellular-regulated kinases (ERK) 1/2, p38 mitogen-activated protein kinase (p38MAPK), and Akt in HGFs. Wound closure by CP55940 in an in-vitro scratch assay was significantly suppressed by inhibitors of MAP kinase kinase (MEK), p38MAPK, and phosphoinositol 3-kinase (PI3-K). These findings suggest that endocannabinoid system may have an important role in periodontal healing. 相似文献
124.
Gravity-Induced Modifications to Development in Hypocotyls of Arabidopsis Tubulin Mutants 总被引:1,自引:0,他引:1
Shouhei Matsumoto Saori Kumasaki Kouichi Soga Kazuyuki Wakabayashi Takashi Hashimoto Takayuki Hoson 《Plant physiology》2010,152(2):918-926
We investigated the roles of cortical microtubules in gravity-induced modifications to the development of stem organs by analyzing morphology and orientation of cortical microtubule arrays in hypocotyls of Arabidopsis (Arabidopsis thaliana) tubulin mutants, tua3(D205N), tua4(S178Δ), and tua6(A281T), cultivated under 1g and hypergravity (300g) conditions. Hypocotyls of tubulin mutants were shorter and thicker than the wild type even at 1g, and hypergravity further suppressed elongation and stimulated expansion. The degree of such changes was clearly smaller in tubulin mutants, in particular in tua6. Hypocotyls of tubulin mutants also showed either left-handed or right-handed helical growth at 1g, and the degree of twisting phenotype was intensified under hypergravity conditions, especially in tua6. Hypergravity induced reorientation of cortical microtubules from transverse to longitudinal directions in epidermal cells of wild-type hypocotyls. In tubulin mutants, especially in tua6, the percentage of cells with longitudinal microtubules was high even at 1g, and it was further increased by hypergravity. The twisting phenotype was most obvious at cells 10 to 12 from the top, where reorientation of cortical microtubules from transverse to longitudinal directions occurred. Moreover, the left-handed helical growth mutants (tua3 and tua4) had right-handed microtubule arrays, whereas the right-handed mutant (tua6) had left-handed arrays. There was a close correlation between the alignment angle of epidermal cell files and the alignment of cortical microtubules. Gadolinium ions, blockers of mechanosensitive ion channels (mechanoreceptors), suppressed the twisting phenotype in tubulin mutants under both 1g and 300g conditions. Microtubule arrays in tubulin mutants were oriented more transversely by gadolinium treatment, irrespective of gravity conditions. These results support the hypothesis that cortical microtubules play an essential role in maintenance of normal growth phenotype against the gravitational force, and suggest that mechanoreceptors are involved in modifications to morphology and orientation of microtubule arrays by 1g gravity and hypergravity in tubulin mutants.The direction of cell expansion is important for determining the shape of whole plant body. Cortical microtubules are assumed to be responsible for anisotropic expansion of plant cells (Wasteneys and Galway, 2003; Lloyd and Chan, 2004; Mathur, 2004; Baskin, 2005; Paredez et al., 2008). The prevailing view is that cortical microtubule arrays direct or constrain the movement of the cellulose synthase complexes and thus align nascent cellulose microfibrils in the same direction in the innermost layer of the cell wall (Baskin, 2001), although some other mechanisms may also be involved (Baskin, 2001; Sugimoto et al., 2003; Wasteneys, 2004).It is evident that orientation of cortical microtubules plays an essential role in creating the distinct shape of higher plant organs, even if there is uncertainty over the mechanism by which microtubules influence morphogenesis. The importance of cortical microtubule arrays for anisotropic growth has been documented by pharmacological studies and experiments with helical growth mutants of Arabidopsis (Arabidopsis thaliana). Mutants on α- and β-tubulins as well as microtubule-associated proteins show either left-handed or right-handed helical growth (Thitamadee et al., 2002; Nakajima et al., 2004; Sedbrook et al., 2004; Shoji et al., 2004). The rapidly elongating cells of these mutants skew consistently either to the right or to the left and exhibit cortical microtubule arrays that form shallow helices with fixed handedness (Thitamadee et al., 2002; Abe and Hashimoto, 2005; Ishida et al., 2007). Cortical microtubule arrays in the left-handed helical growth mutants form right-handed helix, whereas those in right-handed helical growth mutants form left-handed helix (Thitamadee et al., 2002; Abe and Hashimoto, 2005; Ishida et al., 2007). These results indicate that dysfunctional cortical microtubules are arranged in helical arrays and affect the direction of cell expansion.The gravitational force is one of the environmental factors that determine the plant body shape. Under hypergravity conditions produced by centrifugation, plants generally have a shorter and thicker body (Soga et al., 2006). Namely, hypergravity modifies growth anisotropy. In Arabidopsis hypocotyls, the expression of most α- and β-tubulin genes was up-regulated by hypergravity (Yoshioka et al., 2003; Matsumoto et al., 2007). In protoplasts of Brassica hypocotyls, hypergravity stimulated the regeneration of cortical microtubules into parallel arrays (Skagen and Iversen, 1999), and in azuki bean (Vigna angularis) epicotyls it increased the percentage of cells with longitudinal cortical microtubules (Soga et al., 2006). The reorientation of cortical microtubules from transverse to longitudinal directions may be involved in modifications by hypergravity to growth anisotropy.The aim of this study was to clarify the roles of cortical microtubules in gravity-induced modifications to development of stem organs. For this purpose, we examined the changes in growth, morphology, and orientation of cortical microtubule arrays in hypocotyls of Arabidopsis amino acid substitution mutants in α-tubulin structure, tua3, tua4, and tua6, grown under 1g and 300g conditions. We have reported the possible involvement of mechanosensitive ion channels (mechanoreceptors) in hypergravity-induced modifications to growth and cell wall properties (Soga et al., 2004, 2005, 2006). Thus, we also examined the effect of blockers of mechanoreceptors on helical growth and orientation of cortical microtubule arrays in the tubulin mutants. 相似文献
125.
Hypergravity produced by centrifugation caused inhibition of elongation growth and a decrease in the cell wall extensibility in azuki bean epicotyls ( Vigna angularis Ohwi et Ohashi). Also, hypergravity increased the molecular mass of xyloglucans, whereas it decreased xyloglucan-degrading activity in epicotyls. When the expression profiles of three xyloglucan endotransglucosylase/hydrolase ( XTH ) genes, VaXTHS4 , VaXTH1 and VaXTH2 , were analyzed under hypergravity conditions, the expression of VaXTHS4 , which shows only hydrolase activity, was downregulated in proportion to the logarithm of the magnitude of gravity (R = −0.94). However, the gene expression of VaXTH1 or VaXTH2 , which shows only transglucosylase activity, was not affected by gravitational conditions. When the seedlings that had been grown at 1 g were transferred to hypergravity conditions at 300 g , the downregulation of VaXTHS4 expression was detected within 1 h. By removal of hypergravity stimulus, VaXTHS4 expression was increased within 1 h. These results suggest that azuki bean epicotyls promptly regulate the expression level of only VaXTHS4 in response to gravity stimuli. The regulation of xyloglucan-hydrolyzing activity as a result of changes in VaXTHS4 expression may be involved in the regulation by gravity of molecular mass of xyloglucans, leading to modifications of cell wall mechanical properties and cell elongation. Lanthanum and gadolinium, potential blockers of mechanosensitive calcium ion permeable channels (mechanoreceptors), nullified the suppression of VaXTHS4 expression, suggesting that mechanoreceptors are responsible for inhibition by hypergravity of VaXTHS4 expression. 相似文献
126.
Nakayama T Yamazumi K Uemura T Yoshizaki A Yakata Y Matsuu-Matsuyama M Shichijo K Sekine I 《Radiation research》2007,168(4):433-439
X rays are well known to cause genetic damage and to induce many types of carcinomas in humans. The Apc(min/+) mouse, an animal model for human familial adenomatous polyposis (FAP), contains a truncating mutation in the APC gene and spontaneously develops intestinal adenomas. To elucidate the role of X rays in the development of intestinal tumors, we examined the promotion of carcinogenesis in X-irradiated Apc(min/+) mice. Forty out of 77 (52%) X-irradiated Apc(min/+) mice developed adenocarcinomas that invaded the proprial muscle layer of the small intestine; 24 of 44 (55%) were in males, and 16 of 33 (49%) were in females. In contrast, invasive carcinomas were detected in the small intestines of only 13 of 64 (20%) nonirradiated Apc(min/+) mice; nine of 32 (28%) were in males and four of 32 (13%) were in females. These differences between X-irradiated and nonirradiated Apc(min/+) mice in the occurrence of invasive intestinal carcinomas were statistically significant (P < 0.05 for males, P < 0.005 for females). In wild-type mice, invasive carcinomas were not detected in either X-irradiated or nonirradiated mice. Apc(min/+) mice had many polyps in the large intestine with or without X irradiation; there was no difference in the number of polyps between the two groups. Also, invasive carcinomas were not detected in the large intestine with or without irradiation. The occurrence of mammary tumors, which was observed in Apc(min/+) mice, was found to be increased in irradiated Apc(min/+) mice (P < 0.01). Apc(min/+) mice had many polyps in the small and large intestines with or without X irradiation. X-irradiated Apc(min/+) mice had highly invasive carcinomas in the small intestine with multiplicities associated with invasiveness. Our results suggest that X radiation may promote the invasive activity of intestinal tumors in Apc(min/+) mice. 相似文献
127.
Yoshida K Yoshioka D Inoue K Takaichi S Maeda I 《Applied microbiology and biotechnology》2007,76(5):1043-1050
The change in carotenoid-based bacterial color from yellow to red can be applied to whole-cell biosensors. We generated several
green mutants to emphasize the color change in such biosensors. The blue-green crtI-deleted mutant, Rhodopseudomonas palustris no.711, accumulated the colorless carotenoid precursor, phytoene. Green Rhodovulum sulfidophilum M31 accumulated neurosporene, a downstream product of phytoene. Another green mutant, Rhodobacter sphaeroides Ga, accumulated neurosporene and chloroxanthin, which are both downstream products of phytoene. All green mutants accumulated
bacteriochlorophyll a. Photosynthetic membrane obtained from the green mutants all exhibited decreased absorption of wavelength range at 510–570 nm.
Therefore, these indicate that the greenish bacterial colors were mainly caused by the existence of bacteriochlorophyll a and the changes in carotenoid composition in photosynthetic membrane. The colors of the green mutants and their wild-type
strains were plotted in the CIE-L*a*b* color space, and the color difference (ΔE*ab) values between a green mutant and its
wild type were calculated. ΔE*ab values were higher in the green mutants than in Rdv. sulfidophilum CDM2, the yellowish host strain of reported biosensors. These data indicate that change in bacterial color from green to
red is more distinguishable than that from yellow to red as a reporter signal of carotenoid-based whole-cell biosensors. 相似文献
128.
Hossain MT Soga K Wakabayashi K Kamisaka S Fujii S Yamamoto R Hoson T 《Journal of plant physiology》2007,164(4):385-393
Effects of silicon on the mechanical and chemical properties of cell walls in the second leaf of oat (Avena sativa L.) seedlings were investigated. The cell wall extensibility in the basal region of the second leaf was considerably higher than that in the middle and subapical regions. Externally applied silicon increased the cell wall extensibility in the basal region, but it did not affect the extensibility in the middle and subapical regions. The amounts of cell wall polysaccharides and phenolic compounds, such as diferulic acid (DFA) and ferulic acid (FA), per unit length were lower in the basal region than in the middle and subapical regions of the leaf, and silicon altered these amounts in the basal region. In this region, silicon decreased the amounts of matrix polymers and cellulose per unit length and of DFA and FA, both per unit length and unit matrix polymer content. Silicon treatment also lowered the activity of phenylalanine ammonia-lyase (PAL, EC 4.3.1.5) in the basal region. In contrast, the amount of silicon in cell walls increased in response to silicon treatment in three regions. These results suggest that in the basal region, silicon reduces the net wall mass and the formation of phenolic acid-mediated cross-linkages between wall polysaccharides. Such modifications of wall architecture may be responsible for the silicon-induced increase in the cell wall extensibility in oat leaves. 相似文献
129.
Fongmoon D Shetty AK Basappa Yamada S Sugiura M Kongtawelert P Sugahara K 《The Journal of biological chemistry》2007,282(51):36895-36904
Chondroitin sulfate K (CS-K) from king crab cartilage rich in rare 3-O-sulfated glucuronic acid (GlcUA(3S)) displayed neuritogenic activity and affinity toward various growth factors like CS-E from squid cartilage. CS-K-mediated neuritogenesis of mouse hippocampal neurons in culture was abolished by digestion with chondroitinase (CSase) ABC, indicating the possible involvement of GlcUA(3S). However, identification of GlcUA(3S) in CS chains by conventional high performance liquid chromatography has been hampered by its CSase ABC-mediated degradation. To investigate the degradation process, an authentic CS-E tetrasaccharide, Delta4,5HexUA-GalNAc(4S)-GlcUA(3S)-GalNAc(4S), was digested with CSase ABC, and the end product was identified as GalNAc(4S) by electrospray ionization mass spectrometry (ESI-MS). Putative GalNAc(6S) and GalNAc(4S,6S), derived presumably from GlcUA(3S)-GalNAc(6S) and GlcUA(3S)-GalNAc(4S,6S), respectively, were also detected by ESI-MS in the CSase ABC digest of a CS-E oligosaccharide fraction resistant to CSases AC-I and AC-II. Intermediates during the CSase ABC-mediated degradation of Delta4,5HexUA(3S)-GalNAc(4S) to GalNAc(4S) were identified through ESI-MS of a partial CSase ABC digest of a CS-K tetrasaccharide, GlcUA(3S)-GalNAc(4S)-GlcUA(3S)-GalNAc(4S), and the conceivable mechanism behind the degradation of the GlcUA(3S) moiety was elucidated. Although a fucose branch was also identified in CS-K, defucosylated CS-K exhibited greater neuritogenic activity than the native CS-K, excluding the possibility of the involvement of fucose in the activity. Rather, (3S)-containing disaccharides are likely involved. These findings will enable us to detect GlcUA(3S)-containing disaccharides in CS chains to better understand CS-mediated biological processes. 相似文献
130.
Furuta K Nakayama K Sugimoto Y Ichikawa A Tanaka S 《The Journal of biological chemistry》2007,282(18):13438-13446
L-Histidine decarboxylase (HDC) is the rate-limiting enzyme for histamine synthesis in mammals. Although accumulating evidence has indicated the post-translational processing of HDC, it remains unknown what kinds of proteases are involved. We investigated the processing of HDC in a mouse mastocytoma, P-815, using a lentiviral expression system. HDC was expressed as a 74-kDa precursor form, which is cleaved to yield the 55- and 60-kDa forms upon treatment with butyrate. Alanine-scanning mutations revealed that two tandem aspartate residues (Asp(517)-Asp(518), Asp(550)-Asp(551)) are critical for the processing. Treatment with butyrate caused an increase in the enzyme activity of the cells expressing the wild type HDC, but not in the cells expressing the processing-incompetent mutant. An increase in histamine synthesis by butyrate was accompanied by formation of the 55- and 60-kDa form of HDC. In addition, the in vitro translated 74-kDa form of HDC was found to undergo a limited cleavage by purified human caspase-9, whereas the alanine-substituted mutants were not. Processing and enzymatic activation of HDC in P-815 cells was enhanced in the presence of a Zn(2+) chelator, TPEN. Although treatment with butyrate and TPEN drastically augmented the protease activity of caspase-3, and -9, no apoptotic cell death was observed. Both enzymatic activation and processing of HDC were completely suppressed by a pan-caspase inhibitor, partially but significantly by a specific inhibitor for caspase-9, but not by a caspase-3 inhibitor. These results suggest that, in P-815 cells, histamine synthesis is augmented through the post-translational cleavage of HDC, which is mediated by caspase-9. 相似文献