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961.
Itoh M Li S Ohta K Yamada A Hayakawa-Yano Y Ueda M Hida Y Suzuki Y Ohta E Mizuno A Banno Y Nakagawa T 《Neurochemical research》2011,36(7):1304-1313
Caspase plays an important role in apoptosis and physiological processes such as synaptic plasticity. However, the caspase substrate at the synapse is still unknown. Here we used an in vitro cleavage assay with a small-pool human brain cDNA library. We identified the presynaptic protein Caytaxin as a substrate of caspase-3 and caspase-7. Deficiency in Caytaxin causes Cayman ataxia, a disorder characterized by cerebellar dysfunction and mental retardation. Caytaxin cleavage in cerebellar granule neurons is dependent on caspase-3 activation. The cleavage site is upstream of the cellular retinal and the TRIO guanine exchange factor domain, producing a C-terminal fragment that may play an alternative role in inhibiting MEK2 signaling. Thus, we concluded that Caytaxin is a novel substrate of caspase-3 at the presynapse. 相似文献
962.
Petrov A Kornberg G O'Leary S Tsai A Uemura S Puglisi JD 《Current opinion in structural biology》2011,21(1):137-145
The recent growth in single molecule studies of translation has provided an insight into the molecular mechanism of ribosomal function. Single molecule fluorescence approaches allowed direct observation of the structural rearrangements occurring during translation and revealed dynamic motions of the ribosome and its ligands. These studies demonstrated how ligand binding affects dynamics of the ribosome, and the role of the conformational sampling in large-scale rearrangements intrinsic to translation elongation. The application of time-resolved cryo-electron microscopy revealed new conformational intermediates during back-translocation providing an insight into ribosomal dynamics from an alternative perspective. Recent developments permitted examination of conformational and compositional dynamics of the ribosome in real-time through multiple cycles of elongation at the single molecule level. The zero-mode waveguide approach allowed direct observation of the compositional dynamics of tRNA occupancy on the elongating ribosome. The emergence of single molecule in vivo techniques provided insights into the mechanism and regulation of translation at the organismal level. 相似文献
963.
Adriana Araujo Reis-Menezes Walderez GambaleMauro Cintra Giudice Márcia Aiko Shirakawa 《International biodeterioration & biodegradation》2011,65(3):423-428
The growth of molds on paper containing cellulose is a frequent occurrence when the level of relative air humidity is high or when books become wet due to water leaks in libraries. The aim of this study is to differentiate the bioreceptivity of different types of book paper for different fungi. Laboratory tests were performed with strains of Aspergillus niger, Cladosporium sp., Chaetomium globosum and Trichoderma harzianum isolated from books. Four paper types were evaluated: couché, Pólen (offset), recycled and a reference paper containing only cellulose. The tests were carried out in chambers with relative air humidity of 95% and 100%. Mold growth was greatest in the tests at 100% relative humidity. Results of stereoscopic microscopy observation showed that Cladosporium sp. grew in 74% of these samples, A. niger in 75%, T. harzianum in 72% and C. globosum in 60%. In the chambers with 95% air humidity Cladosporium sp. grew in only 9% of the samples, A. niger in 1%, T. harzianum in 3% and C. globosum did not grow in any sample. The most bioreceptive paper was couché and the least receptive was recycled paper. The composition of the recycled paper, however, varies depending on the types of waste materials used to make it. 相似文献
964.
Ebine K Fujimoto M Okatani Y Nishiyama T Goh T Ito E Dainobu T Nishitani A Uemura T Sato MH Thordal-Christensen H Tsutsumi N Nakano A Ueda T 《Nature cell biology》2011,13(7):853-859
Endosomal trafficking plays an integral role in various eukaryotic cell activities and serves as a basis for higher-order functions in multicellular organisms. An understanding of the importance of endosomal trafficking in plants is rapidly developing, but its molecular mechanism is mostly unknown. Several key regulators of endosomal trafficking, including RAB5, which regulates diverse endocytic events in animal cells, are highly conserved. However, the identification of lineage-specific regulators in eukaryotes indicates that endosomal trafficking is diversified according to distinct body plans and lifestyles. In addition to orthologues of metazoan RAB5, land plants possess a unique RAB5 molecule, which is one of the most prominent features of plant RAB GTPase organization. Plants have also evolved a unique repertoire of SNAREs, the most distinctive of which are diverse VAMP7-related longins, including plant-unique VAMP72 derivatives. Here, we demonstrate that a plant-unique RAB5 protein, ARA6, acts in an endosomal trafficking pathway in Arabidopsis thaliana. ARA6 modulates the assembly of a distinct SNARE complex from conventional RAB5, and has a functional role in the salinity stress response. Our results indicate that plants possess a unique endosomal trafficking network and provide the first indication of a functional link between a specific RAB and a specific SNARE complex in plants. 相似文献
965.
Sousuke Imamura Aiko Ishiwata Satoru Watanabe Hirofumi Yoshikawa Kan Tanaka 《Biochemical and biophysical research communications》2013
The target of rapamycin (TOR) is serine/threonine protein kinase that is highly conserved among eukaryotes and can be inactivated by the antibiotic rapamycin through the formation of a ternary complex composed of rapamycin and two proteins, TOR and FKBP12. Differing from fungi and animals, plant FKBP12 proteins are unable to form the ternary complex, and thus plant TORs are insensitive to rapamycin. This has led to a poor understanding of TOR functions in plants. As a first step toward the understanding of TOR function in a rapamycin-insensitive unicellular red alga, Cyanidioschyzon merolae, we constructed a rapamycin-susceptible strain in which the Saccharomyces cerevisiae FKBP12 protein (ScFKBP12) was expressed. Treatment with rapamycin resulted in growth inhibition and decreased polysome formation in this strain. Binding of ScFKBP12 with C. merolae TOR in the presence of rapamycin was demonstrated in vivo and in vitro by pull-down experiments. Moreover, in vitro kinase assay showed that inhibition of C. merolae TOR kinase activity was dependent on ScFKBP12 and rapamycin. 相似文献
966.
Akiharu Kubo Aiko Shiohama Takashi Sasaki Kazuhiko Nakabayashi Hiroshi Kawasaki Toru Atsugi Showbu Sato Atsushi Shimizu Shuji Mikami Hideaki Tanizaki Masaki Uchiyama Tatsuo Maeda Taisuke Ito Jun-ichi Sakabe Toshio Heike Torayuki Okuyama Rika Kosaki Kenjiro Kosaki Jun Kudoh Kenichiro Hata Akihiro Umezawa Yoshiki Tokura Akira Ishiko Hironori Niizeki Kenji Kabashima Yoshihiko Mitsuhashi Masayuki Amagai 《American journal of human genetics》2013
967.
968.
Aya K. Takeda Hiroaki Udagawa Yasuo Uemura 《Bioscience, biotechnology, and biochemistry》2013,77(11):1880-1888
ABSTRACTWhole-genome sequencing was conducted on two Aspergillus oryzae strains used for the manufacturing of food enzymes, Acrylaway® and Shearzyme®, with the aim of identifying the inserted locus of randomly integrated expression plasmid and obtaining flanking sequences for safety assessment. Illumina paired-end sequencing was employed, and the obtained reads were mapped to two references: the public genome sequence of Aspergillus oryzae RIB40 and the in-house sequence of the used expression plasmid. Introducing the concept of linking-reads, one locus for each was successfully identified as the integrated site. In the case of Acrylaway®, the obtained sequences suggested that the expression plasmid had been integrated as multiple copies in tandem form. In the case of Shearzyme®, however, information on one edge of the insert was missing, which required extra polymerase chain reaction (PCR) cloning for safety assessment. A 4-kb deletion was detected at the integrated site. There was also evidence of rearrangement occurring in Shearzyme® strain. 相似文献
969.
970.
Toshihide Ohya Teruo Sawai Shunpei Uemura Kazuko Abe 《Bioscience, biotechnology, and biochemistry》2013,77(3):571-577
An exo-l,6-α-glucosidase (EC 3.2.1.70) (glucodextranase) produced extraceUularly by Arthrobacter globiformis I42 was found to invert the configuration of glucose released from dextran, and to require calcium for protection against warming. Among isomaltodextrins used as substrates for this enzyme, the rate of hydrolysis for isomaltose was the lowest and increased with the degree of polymerization (d. p.) of the saccharides up to d. p. 7. The minor activities accompanying purified glucodextranase preparations (release of glucose from starch, splitting of maltose, nigerose and kojibiose) were ascribed to the glucodextranase itself. Fourteen native dextrans and soluble potato starch were subjected to digestion by this glucodextranase and the rate, process and extent of hydrolysis of these substrates were studied relative to the composition of non-l,6-α-linkages of these polysaccharides. 相似文献