-
作者:Tang, Haoxian
作者单位:Shantou University
-
作者:Zhang, Xuan
作者单位:Shantou University
-
作者:Bismuth, Keren; Sharma, Vandana; Powell, Jackson Ross; Tang, Haoxian; Cao, Bo; Huang, Jingtao; Patel, Rishi Jai; Bezerra, Paulo; Zhang, Xuan; Wen, Qianjun; Oda, Fernanda S.; Verstiuk, Olesia; Khan, Muhammad Shehryar; Virguez, Edgar; Zhi, Yuan; Dedyo, John M.
作者单位:All India Institute of Medical Sciences (AIIMS) New Delhi; University of Pennsylvania; Shantou University; Xi'an Jiaotong University; University of Pennsylvania; Universidade Federal Rural do Semi-Arido (UFERSA); Guizhou Medical University; University of Kansas; University of Nicosia; Massachusetts Institute of Technology (MIT); Carnegie Institution for Science; Guizhou University; Yale University
-
作者:McCarthy, Margaret M.
作者单位:University System of Maryland; University of Maryland Baltimore
-
作者:Offord, Catherine; Cohen, Jon
-
作者:Verstiuk, Olesia
作者单位:University of Nicosia
-
作者:Virguez, Edgar
作者单位:Carnegie Institution for Science
-
作者:Dedyo, John M.
作者单位:Yale University
-
作者:Jiang, Yanyou; Cao, Tianjun; Yang, Yuqing; Zhang, Huan; Zhang, Jingyu; Li, Xiaobo
作者单位:Westlake University; Westlake University
摘要:Marine and terrestrial photosynthesis exhibit a schism in the accessory chlorophyll (Chl) that complements the function of Chl a: Chl b for green plants versus Chl c for most eukaryotic phytoplankton. The enzymes that mediate Chl c biosynthesis have long remained elusive. In this work, we identified the CHLC dioxygenase (Phatr3_J43737) from the marine diatom Phaeodactylum tricornutum as the Chl c synthase. The chlc mutants lacked Chl c, instead accumulating its precursors, and exhibited growth...
-
作者:Katagiri, Kento; Pikuz, Tatiana; Fang, Lichao; Albertazzi, Bruno; Egashira, Shunsuke; Inubushi, Yuichi; Kamimura, Genki; Kodama, Ryosuke; Koenig, Michel; Kozioziemski, Bernard; Masaoka, Gooru; Miyanishi, Kohei; Nakamura, Hirotaka; Ota, Masato; Rigon, Gabriel; Sakawa, Youichi; Sano, Takayoshi; Schoofs, Frank; Smith, Zoe J.; Sueda, Keiichi; Togashi, Tadashi; Vinci, Tommaso; Wang, Yifan; Yabashi, Makina; Yabuuchi, Toshinori; Dresselhaus-Marais, Leora E.; Ozaki, Norimasa
作者单位:University of Osaka; University of Osaka; Stanford University; Stanford University; United States Department of Energy (DOE); SLAC National Accelerator Laboratory; Stanford University; University of Osaka; Institut Polytechnique de Paris; Ecole Polytechnique; CEA; Centre National de la Recherche Scientifique (CNRS); Sorbonne Universite; Japan Synchrotron Radiation Research Institute; RIKEN; United States Department of Energy (DOE); Lawrence Livermore National Laboratory; Nagoya University; UK Atomic Energy Authority; Culham Science Centre; Stanford University; Massachusetts Institute of Technology (MIT)
摘要:The motion of line defects (dislocations) has been studied for more than 60 years, but the maximum speed at which they can move is unresolved. Recent models and atomistic simulations predict the existence of a limiting velocity of dislocation motion between the transonic and subsonic ranges at which the self-energy of dislocation diverges, though they do not deny the possibility of the transonic dislocations. We used femtosecond x-ray radiography to track ultrafast dislocation motion in shock-...
