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Koichiro Yamada Tomonori Tsukahara Kazuhisa Yoshino Katsuhiko Kojima Hideyuki Agawa Yuki Yamashita Yuji Amano Mariko Hatta Yasunori Matsuzaki Naoki Kurotori Keiko Wakui Yoshimitsu Fukushima Ryosuke Osada Tanri Shiozawa Kazuo Sakashita Kenichi Koike Satoru Kumaki Nobuyuki Tanaka Toshikazu Takeshita 《Retrovirology》2009,6(1):1-9
136.
Ishida Norio K. Uchida Daisuke Doi Ryosuke Oishi Katsutaka Chikahisa Sachiko Sei Hiroyoshi Hamasaka Yasutaka Suzuki Takahiro Hanai Shuji 《Sleep and biological rhythms》2010,8(1):2-8
Sleep and Biological Rhythms - In nature, hibernating animals experience fasting, cold temperature, and short day seasonally. Torpor is a state of decreased physiological activity in an animal,... 相似文献
137.
GAMYB controls different sets of genes and is differentially regulated by microRNA in aleurone cells and anthers 总被引:2,自引:0,他引:2
Tsuji H Aya K Ueguchi-Tanaka M Shimada Y Nakazono M Watanabe R Nishizawa NK Gomi K Shimada A Kitano H Ashikari M Matsuoka M 《The Plant journal : for cell and molecular biology》2006,47(3):427-444
GAMYB is a component of gibberellin (GA) signaling in cereal aleurone cells, and has an important role in flower development. However, it is unclear how GAMYB function is regulated. We examined the involvement of a microRNA, miR159, in the regulation of GAMYB expression in cereal aleurone cells and flower development. In aleurone cells, no miR159 expression was observed with or without GA treatment, suggesting that miR159 is not involved in the regulation of GAMYB and GAMYB-like genes in this tissue. miR159 was expressed in tissues other than aleurone, and miR159 over-expressors showed similar but more severe phenotypes than the gamyb mutant. GAMYB and GAMYB-like genes are co-expressed with miR159 in anthers, and the mRNA levels for GAMYB and GAMYB-like genes are negatively correlated with miR159 levels during anther development. Thus, OsGAMYB and OsGAMYB-like genes are regulated by miR159 in flowers. A microarray analysis revealed that OsGAMYB and its upstream regulator SLR1 are involved in the regulation of almost all GA-mediated gene expression in rice aleurone cells. Moreover, different sets of genes are regulated by GAMYB in aleurone cells and anthers. GAMYB binds directly to promoter regions of its target genes in anthers as well as aleurone cells. Based on these observations, we suggest that the regulation of GAMYB expression and GAMYB function are different in aleurone cells and flowers in rice. 相似文献
138.
Omura T Kaneko M Okuma Y Orba Y Nagashima K Takahashi R Fujitani N Matsumura S Hata A Kubota K Murahashi K Uehara T Nomura Y 《Journal of neurochemistry》2006,99(6):1456-1469
It has been proposed that in autosomal recessive juvenile parkinsonism (AR-JP), a ubiquitin ligase (E3) Parkin, which is involved in endoplasmic reticulum-associated degradation (ERAD), lacks E3 activity. The resulting accumulation of Parkin-associated endothelin receptor-like receptor (Pael-R), a substrate of Parkin, leads to endoplasmic reticulum stress, causing neuronal death. We previously reported that human E3 HRD1 in the endoplasmic reticulum protects against endoplasmic reticulum stress-induced apoptosis. This study shows that HRD1 was expressed in substantia nigra pars compacta (SNC) dopaminergic neurons and interacted with Pael-R through the HRD1 proline-rich region, promoting the ubiquitylation and degradation of Pael-R. Furthermore, the disruption of endogenous HRD1 by small interfering RNA (siRNA) induced Pael-R accumulation and caspase-3 activation. We also found that ATF6 overexpression, which induced HRD1, accelerated and caused Pael-R degradation; the suppression of HRD1 expression by siRNA partially prevents this degradation. These results suggest that in addition to Parkin, HRD1 is also involved in the degradation of Pael-R. 相似文献
139.
Kazunori Yamahira Satoshi Ansai Ryo Kakioka Hajime Yaguchi Takeshi Kon Javier Montenegro Hirozumi Kobayashi Shingo Fujimoto Ryosuke Kimura Yusuke Takehana Davin H. E. Setiamarga Yasuoki Takami Rieko Tanaka Ken Maeda Hau D. Tran Noriyuki Koizumi Shinsuke Morioka Vongvichith Bounsong Katsutoshi Watanabe Prachya Musikasinthorn Sein Tun L. K. C. Yun Kawilarang W. A. Masengi V. K. Anoop Rajeev Raghavan Jun Kitano 《Biology letters》2021,17(8)
The Indian subcontinent has an origin geologically different from Eurasia, but many terrestrial animal and plant species on it have congeneric or sister species in other parts of Asia, especially in the Southeast. This faunal and floral similarity between India and Southeast Asia is explained by either of the two biogeographic scenarios, ‘into-India’ or ‘out-of-India’. Phylogenies based on complete mitochondrial genomes and five nuclear genes were undertaken for ricefishes (Adrianichthyidae) to examine which of these two biogeographic scenarios fits better. We found that Oryzias setnai, the only adrianichthyid distributed in and endemic to the Western Ghats, a mountain range running parallel to the western coast of the Indian subcontinent, is sister to all other adrianichthyids from eastern India and Southeast–East Asia. Divergence time estimates and ancestral area reconstructions reveal that this western Indian species diverged in the late Mesozoic during the northward drift of the Indian subcontinent. These findings indicate that adrianichthyids dispersed eastward ‘out-of-India’ after the collision of the Indian subcontinent with Eurasia, and subsequently diversified in Southeast–East Asia. A review of geographic distributions of ‘out-of-India’ taxa reveals that they may have largely fuelled or modified the biodiversity of Eurasia. 相似文献
140.
Wirschell M Yamamoto R Alford L Gokhale A Gaillard A Sale WS 《Archives of biochemistry and biophysics》2011,510(2):4527-100
Recent evidence has revealed that the dynein motors and highly conserved signaling proteins are localized within the ciliary 9 + 2 axoneme. One key mechanism for regulation of motility is phosphorylation. Here, we review diverse evidence, from multiple experimental organisms, that ciliary motility is regulated by phosphorylation/dephosphorylation of the dynein arms through kinases and phosphatases that are anchored immediately adjacent to their axonemal substrates. 相似文献