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伯氏锥虫的线粒体 RNA 编辑
2 启示 3 4 5 Evgeny S. Gerasimov a# 、 Dmitry A. Afonin a# 、 Oksana A. Korzhavina a 、 Julius Lukeš b,c 、 Ross Low d 、 Neil Hall d 、 6 Kevin Tyler e 、 Vyacheslav Yurchenko f * 、 Sara L. Zimmer g * 7 8 9 a 分子生物学系,罗蒙诺索夫莫斯科国立大学,莫斯科 119234,俄罗斯 10 jalgard@gmail.com (ESG)、afoninmsu@outlook.com (DAA)、korzhavina.oksana.bio.msu@gmail.com 11 (OAK) 12 13 b 寄生虫学研究所,生物中心,捷克科学院,370 05 捷克布杰约维采,捷克14 jula@paru.cas.cz (JL) 15 16 c 南波西米亚大学科学学院,370 05 捷克布杰约维采,捷克 17 18 d 厄尔汉姆研究所,诺维奇研究园区,诺维奇 NR4 7UZ,英国 19 Ross.Low@earlham.ac.uk(RL),neil.hall@earlham.ac.uk(NH) 20 21 e 诺维奇医学院,东英吉利亚大学,诺维奇 NR4 7TJ,英国 22 K.Tyler@uea.ac.uk(KT) 23 24 f 生命科学研究中心,俄斯特拉发大学科学学院,710 00 俄斯特拉发,捷克 25 vyacheslav.yurchenko@osu.cz(VY) 26 27 g 明尼苏达大学医学院,德卢斯校区,明尼苏达州德卢斯,55812,美国 28 szimmer3@d.umn.edu (SLZ) 29 30 # 平等贡献 31 * 通信地址 32 33
繁荣和胸围煤炭-2024
Ackanowents的商人恩格尔恩格伯(Engebor)恩格伯(Engebor)的vAds,包括Flompos Champotos,Lucy Hummer,Lims,Litch,Gregot,Ne Ne Thesso。lotrict幽默,恢复/或重新安装inlumide,电话的讲座:Babakava,Xing Zhang,Mingn Zhang(Gem); QI QI,Sivine Nye Little,Sunil Empire Sunil,Hasan,Laurri Myllilavirta(Crea); Oydu区,Samora,Hakko,Yoko Mullulland,Peinsot(E3G); Yann Louutl,Julie Lassus,Paddy McCully,Cletent Faul(收回金融); Goghon Go,支持Hwang Jeong,Evgeny,Wooyoung Lee(Sffoc); Iski Suzuk(Chiko Network); Eliff Cansālhan,Treath的Özms(Eurpee Europes);与Meedi见面(BWGD&续);贾米姆(Jamim)的谢里夫(Whora); Zakaki Amali,Fadikla Mifloula,Twi的儿子Palameshi(无亚洲的Plish); Azar是Azar(prid); Melej Gizo,Sura Larain(智利SUSSTALLABLE); Combriza Media,Mariana Villas(Polt Transcience Values);里卡多·克鲁兹(Ricardo Cruz),皮拉拉斯·罗德里戈(InicativaclimáticaClimática进入梅西奥);尼科尔·菲诺(Niccole Figuo)在奥利维拉(Oliveyira),安东·施维尔(Anton Schwir),克拉尤德(Cláududire)的阿顿(Aton))。
数据经济中的数据联盟和监管 Lin William ...
本文之前以“数字平台和大数据时代的反垄断、监管和用户联盟”为名发表。我们感谢 Matthieu Bouvard(讨论者)、Sebastian Gryglewicz、Shota Ichishashi、Anthony Lee Zhang(讨论者)、Evgeny Lyandres、Michael Sockin(讨论者)、Leonard Treuren 和 Laura Veldkamp 的详细评论。我们还要感谢 Greg Buchak、Jacelly Caspedes、Emilio Calvano、Christopher Clayton、Hans Degryse、Thierry Foucault、Denis Gromb、Andrei Hagiu、Zhigeng He、Jing Huang、Shiyang Huang、Laurence Lescourret、Dan Luo、Roxana Mihet、Aniko Oery Christine Parlour、James Poterba、Raghuram Rajan、Huan Tang、Glen Weyl、Liyan Yang,以及金融人工智能和大数据研究论坛网络研讨会、卡尔加里大学哈斯凯恩商学院、ESSEC 商学院、2022 年牛津人工智能与金融市场会议、香港中文大学深圳、第四届大中华区金融会议、香港科技大学广州、IGP 年会、2022 年金融科技与数字金融国际会议、鲁汶大学、北京大学国家发展学院数字金融研究所金融科技研讨会和 2022 年耶鲁大学初级金融会议的会议和研讨会参与者提出的建设性反馈。何志恒和阮启红提供了出色的研究协助。该项目没有特别资助。本文表达的观点为作者的观点,并不一定反映美国国家经济研究局的观点。
整合的超快全光极化晶体管
标题:综合,超快的全光极化晶体管摘要:自从Dennard缩放大约15年前,处理器的时钟频率一直停滞在几个GHz处。尽管可以以THZ速度切换的全光晶体管可能会带来性能的飞跃,但由于低光学非线性和笨重的组件,在数十年的研究中无法实现这一承诺。现在研究了新一代设备的基础,这些设备的基础与新型材料和集成的光子结构利用了所谓的强光 - 互动制度,这些材料和集成的光子结构可以通过attojoule开关能量实现紧凑的超快全光逻辑回路[1,2]。在这项工作中,将提出朝着该目标的实验进展,包括级联的设置,其中自发的偏振子冷凝物是在一个腔(种子)中产生的,并喂入另一个空腔(晶体管)以诱导北极星冷凝[3,4]。此外,将提出亚皮秒时间尺度上的快速极性凝结动力学,并确定重要的晶体管指标,例如信号扩增(高达60倍)和开/关灭绝率(最高9:1)(最高9:1)。这些发现表明,可以开发可扩展的综合,超快全光晶体管的潜力,从而可以进行更复杂的全光逻辑电路。此外,将提出一种控制这些超快全光晶体管的方法,利用基于相位材料的记忆单元。这项工作由EU H2020 EIC Pathfinder Open Project“ Polloc”(授予协议号956071)。Photonics 13,378–383(2019)。899141)和EU H2020 MSCA-ITN项目参考文献[1] Anton V. Zideadeli,Anton V. Baranikov,Sannikov Deni,Urbon Darius,Scienty Fish,Woods。Shishkov,Evgeny S. Andrianov,Yurii E.Anton V. Zasedatele,“ Anton V. Baranikov,Urbon的Darius,Fabio Scianf,单科学,自然597, 493–497(2021)。[3] D. Urbons,“移动秋千入口的小动物”,eth diss。,no。26125,2019。[4] P. Tassan,D。Urbours,B。Climate,J。Bolten,T。Wahlbrink,M。C. Lemme,M。Forster,U.Scherf,R.F。Mahrt,T.Stöferle,超快完整性全光极化晶体管,” ARX:2404.01868V1,(2024)。
柔性传感器技术路线图
Yifei Luo, Mohammad Reza Abidian, Jong-Hyun Ahn, Deji Akinwande, Anne M. Andrews, Markus Antonietti, Zhenan Bao, Magnus Berggren, Christopher A. Berkey, Christopher John Bettinger, Jun Chen, Peng Chen, Wenlong Cheng, Xu Cheng, Seon-Jin Choi, Alex Chortos, Canan Dagdeviren, Reinhold H. Dauskardt, Chong-an Di, Michael D. Dickey, Xiangfeng Duan, Antonio Facchetti, Zhiyong Fan, Yin Fang, Jianyou Feng, Xue Feng, Huajian Gao, Wei Gao, Xiwen Gong, Chuan Fei Guo, Xiaojun Guo, Martin C. Hartel, Zihan He, John S. Ho, Youfan Hu, Qiyao Huang, Yu Huang, Fengwei Huo, Muhammad M. Hussain, Ali Javey, Unyong Jeong, Chen Jiang, Xingyu Jiang, Jiheong Kang, Daniil Karnaushenko, Ali Khademhosseini, Dae-Hyeong Kim, Il-Doo Kim, Dmitry Kireev, Lingxuan Kong, Chengkuo Lee, Nae-Eung Lee, Pooi See Lee, Tae-Woo Lee, Fengyu Li, Jinxing Li, Cuiyuan Liang, Chwee Teck Lim, Yuanjing Lin, Darren J. Lipomi, Jia Liu, Kai Liu, Nan Liu, Ren Liu, Yuxin Liu, Yuxuan Liu, Zhiyuan Liu, Zhuangjian Liu, Xian Jun Loh, Nanshu Lu, Zhisheng Lv, Shlomo Magdassi, George G. Malliaras, Naoji Matsuhisa, Arokia Nathan, Simiao Niu, Jieming Pan, Changhyun Pang, Qibing Pei, Huisheng Peng, Dianpeng Qi, Huaying Ren, John A. Rogers, Aaron Rowe, Oliver G. Schmidt, Tsuyoshi Sekitani, Dae-Gyo Seo, Guozhen Shen, Xing Sheng, Qiongfeng Shi, Takao Someya, Yanlin Song, Eleni Stavrinidou, Meng Su, Xuemei Sun, Kuniharu Takei, Xiao-Ming Tao, Benjamin C. K. Tee, Aaron Voon-Yew Thean, Tran Quang Trung, Changjin Wan, Huiliang Wang, Joseph Wang, Ming Wang, Sihong Wang, Ting Wang, Zhong Lin Wang, Paul S. Weiss, Hanqi Wen, Sheng Xu, Tailin Xu, Hongping Yan, Xuzhou Yan, Hui Yang, Le Yang, Shuaijian Yang, Lan Yin, Cunjiang Yu, Guihua Yu, Jing Yu, Shu-Hong Yu, Xinge Yu, Evgeny Zamburg, Haixia Zhang, Xiangyu Zhang, Xiaosheng Zhang, Xueji Zhang, Yihui Zhang, Yu Zhang, Siyuan Zhao, Xuanhe Zhao, Yuanjin Zheng, Yu-Qing Zheng, Zijian Zheng, Tao Zhou, Bowen Zhu, Ming Zhu, Rong Zhu, Yangzhi Zhu, Yong Zhu, Guijin Zou, and Xiaodong Chen *
柔性传感器技术路线图 - 香港
Yifei Luo, Mohammad Reza Abidian, Jong-Hyun Ahn, Deji Akinwande, Anne M. Andrews, Markus Antonietti, Zhenan Bao, Magnus Berggren, Christopher A. Berkey, Christopher John Bettinger, Jun Chen, Peng Chen, Wenlong Cheng, Xu Cheng, Seon-Jin Choi, Alex Chortos, Canan Dagdeviren, Reinhold H. Dauskardt, Chong-an Di, Michael D. Dickey, Xiangfeng Duan, Antonio Facchetti, Zhiyong Fan, Yin Fang, Jianyou Feng, Xue Feng, Huajian Gao, Wei Gao, Xiwen Gong, Chuan Fei Guo, Xiaojun Guo, Martin C. Hartel, Zihan He, John S. Ho, Youfan Hu, Qiyao Huang, Yu Huang, Fengwei Huo, Muhammad M. Hussain, Ali Javey, Unyong Jeong, Chen Jiang, Xingyu Jiang, Jiheong Kang, Daniil Karnaushenko, Ali Khademhosseini, Dae-Hyeong Kim, Il-Doo Kim, Dmitry Kireev, Lingxuan Kong, Chengkuo Lee, Nae-Eung Lee, Pooi See Lee, Tae-Woo Lee, Fengyu Li, Jinxing Li, Cuiyuan Liang, Chwee Teck Lim, Yuanjing Lin, Darren J. Lipomi, Jia Liu, Kai Liu, Nan Liu, Ren Liu, Yuxin Liu, Yuxuan Liu, Zhiyuan Liu, Zhuangjian Liu, Xian Jun Loh, Nanshu Lu, Zhisheng Lv, Shlomo Magdassi, George G. Malliaras, Naoji Matsuhisa, Arokia Nathan, Simiao Niu, Jieming Pan, Changhyun Pang, Qibing Pei, Huisheng Peng, Dianpeng Qi, Huaying Ren, John A. Rogers, Aaron Rowe, Oliver G. Schmidt, Tsuyoshi Sekitani, Dae-Gyo Seo, Guozhen Shen, Xing Sheng, Qiongfeng Shi, Takao Someya, Yanlin Song, Eleni Stavrinidou, Meng Su, Xuemei Sun, Kuniharu Takei, Xiao-Ming Tao, Benjamin C. K. Tee, Aaron Voon-Yew Thean, Tran Quang Trung, Changjin Wan, Huiliang Wang, Joseph Wang, Ming Wang, Sihong Wang, Ting Wang, Zhong Lin Wang, Paul S. Weiss, Hanqi Wen, Sheng Xu, Tailin Xu, Hongping Yan, Xuzhou Yan, Hui Yang, Le Yang, Shuaijian Yang, Lan Yin, Cunjiang Yu, Guihua Yu, Jing Yu, Shu-Hong Yu, Xinge Yu, Evgeny Zamburg, Haixia Zhang, Xiangyu Zhang, Xiaosheng Zhang, Xueji Zhang, Yihui Zhang, Yu Zhang, Siyuan Zhao, Xuanhe Zhao, Yuanjin Zheng, Yu-Qing Zheng, Zijian Zheng, Tao Zhou, Bowen Zhu, Ming Zhu, Rong Zhu, Yangzhi Zhu, Yong Zhu, Guijin Zou, and Xiaodong Chen *
MS/MS免费征用
63 Sultan Kristin Smart聚合物,用于基于稳健亲和力的捕获磷酸化和甲基化蛋白质46 Szeitz Beata对黑色素瘤蛋白质组47 Watral Joanna中癌症驱动基因突变的重点分析,Joanna探索了跨性别的proventry signal signal signal signal signal signal signal signal spirant spiratial simpals sporics spirication spirication sporics sphia tmt tmt smt tmt tmt tmt tmt tmt tmt tmt tmt tmt tmt tmt tmt genetic frontotemporal dementia subtypes 51 Xuan Yue A novel intelligent data acquisition Hybrid-DIA mass spectrometry strategy: enabling data-driven and hypothesis-driven approaches in one go 52 Xuan Yue Unlocking the potential of large-cohort proteomics studies with a novel high-resolution accurate mass platform 23 Zarrineh Mahshid PhenoPCM: A Feasibility study of Proteomics and常规临床样本中的多词