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Quantum computational advantage using photons 期刊论文
Science, 2020
作者:  Han-Sen Zhong;  Hui Wang;  Yu-Hao Deng;  Ming-Cheng Chen;  Li-Chao Peng;  Yi-Han Luo;  Jian Qin;  Dian Wu;  Xing Ding;  Yi Hu;  Peng Hu;  Xiao-Yan Yang;  Wei-Jun Zhang;  Hao Li;  Yuxuan Li;  Xiao Jiang;  Lin Gan;  Guangwen Yang;  Lixing You;  Zhen Wang;  Li Li;  Nai-Le Liu;  Chao-Yang Lu;  Jian-Wei Pan
收藏  |  浏览/下载:34/0  |  提交时间:2020/12/22
De novo design of potent and resilient hACE2 decoys to neutralize SARS-CoV-2 期刊论文
Science, 2020
作者:  Thomas W. Linsky;  Renan Vergara;  Nuria Codina;  Jorgen W. Nelson;  Matthew J. Walker;  Wen Su;  Christopher O. Barnes;  Tien-Ying Hsiang;  Katharina Esser-Nobis;  Kevin Yu;  Z. Beau Reneer;  Yixuan J. Hou;  Tanu Priya;  Masaya Mitsumoto;  Avery Pong;  Uland Y. Lau;  Marsha L. Mason;  Jerry Chen;  Alex Chen;  Tania Berrocal;  Hong Peng;  Nicole S. Clairmont;  Javier Castellanos;  Yu-Ru Lin;  Anna Josephson-Day;  Ralph S. Baric;  Deborah H. Fuller;  Carl D. Walkey;  Ted M. Ross;  Ryan Swanson;  Pamela J. Bjorkman;  Michael Gale;  Luis M. Blancas-Mejia;  Hui-Ling Yen;  Daniel-Adriano Silva
收藏  |  浏览/下载:11/0  |  提交时间:2020/12/07
Thermosensitive crystallization–boosted liquid thermocells for low-grade heat harvesting 期刊论文
Science, 2020
作者:  Boyang Yu;  Jiangjiang Duan;  Hengjiang Cong;  Wenke Xie;  Rong Liu;  Xinyan Zhuang;  Hui Wang;  Bei Qi;  Ming Xu;  Zhong Lin Wang;  Jun Zhou
收藏  |  浏览/下载:10/0  |  提交时间:2020/10/20
SOSTDC1-producing follicular helper T cells promote regulatory follicular T cell differentiation 期刊论文
Science, 2020
作者:  Xin Wu;  Yun Wang;  Rui Huang;  Qujing Gai;  Haofei Liu;  Meimei Shi;  Xiang Zhang;  Yonglin Zuo;  Longjuan Chen;  Qiwen Zhao;  Yu Shi;  Fengchao Wang;  Xiaowei Yan;  Huiping Lu;  Senlin Xu;  Xiaohong Yao;  Lin Chen;  Xia Zhang;  Qiang Tian;  Ziyan Yang;  Bo Zhong;  Chen Dong;  Yan Wang;  Xiu-Wu Bian;  Xindong Liu
收藏  |  浏览/下载:19/0  |  提交时间:2020/08/25
DNA vaccine protection against SARS-CoV-2 in rhesus macaques 期刊论文
Science, 2020
作者:  Jingyou Yu;  Lisa H. Tostanoski;  Lauren Peter;  Noe B. Mercado;  Katherine McMahan;  Shant H. Mahrokhian;  Joseph P. Nkolola;  Jinyan Liu;  Zhenfeng Li;  Abishek Chandrashekar;  David R. Martinez;  Carolin Loos;  Caroline Atyeo;  Stephanie Fischinger;  John S. Burke;  Matthew D. Slein;  Yuezhou Chen;  Adam Zuiani;  Felipe J. N. Lelis;  Meghan Travers;  Shaghayegh Habibi;  Laurent Pessaint;  Alex Van Ry;  Kelvin Blade;  Renita Brown;  Anthony Cook;  Brad Finneyfrock;  Alan Dodson;  Elyse Teow;  Jason Velasco;  Roland Zahn;  Frank Wegmann;  Esther A. Bondzie;  Gabriel Dagotto;  Makda S. Gebre;  Xuan He;  Catherine Jacob-Dolan;  Marinela Kirilova;  Nicole Kordana;  Zijin Lin;  Lori F. Maxfield;  Felix Nampanya;  Ramya Nityanandam;  John D. Ventura;  Huahua Wan;  Yongfei Cai;  Bing Chen;  Aaron G. Schmidt;  Duane R. Wesemann;  Ralph S. Baric;  Galit Alter;  Hanne Andersen;  Mark G. Lewis;  Dan H. Barouch
收藏  |  浏览/下载:18/0  |  提交时间:2020/08/18
Metalens-array–based high-dimensional and multiphoton quantum source 期刊论文
Science, 2020
作者:  Lin Li;  Zexuan Liu;  Xifeng Ren;  Shuming Wang;  Vin-Cent Su;  Mu-Ku Chen;  Cheng Hung Chu;  Hsin Yu Kuo;  Biheng Liu;  Wenbo Zang;  Guangcan Guo;  Lijian Zhang;  Zhenlin Wang;  Shining Zhu;  Din Ping Tsai
收藏  |  浏览/下载:14/0  |  提交时间:2020/06/29
Economics in the Age of COVID-19 期刊论文
NATURE, 2020, 581 (7809) : 375-377
作者:  Yin, Juan;  Li, Yu-Huai;  Liao, Sheng-Kai;  Yang, Meng;  Cao, Yuan;  Zhang, Liang;  Ren, Ji-Gang;  Cai, Wen-Qi;  Liu, Wei-Yue;  Li, Shuang-Lin;  Shu, Rong;  Huang, Yong-Mei;  Deng, Lei;  Li, Li;  Zhang, Qiang;  Liu, Nai-Le
收藏  |  浏览/下载:25/0  |  提交时间:2020/07/03

Breakneck triage nails many diagnoses, but deeper treatment is needed.


Breakneck triage nails many diagnoses, but deeper treatment is needed.


  
Strain engineering and epitaxial stabilization of halide perovskites 期刊论文
NATURE, 2020, 577 (7789) : 209-+
作者:  Chen, Yimu;  Lei, Yusheng;  Li, Yuheng;  Yu, Yugang;  Cai, Jinze;  Chiu, Ming-Hui;  Rao, Rahul;  Gu, Yue;  Wang, Chunfeng;  Choi, Woojin;  Hu, Hongjie;  Wang, Chonghe;  Li, Yang;  Song, Jiawei;  Zhang, Jingxin;  Qi, Baiyan;  Lin, Muyang;  Zhang, Zhuorui;  Islam, Ahmad E.;  Maruyama, Benji;  Dayeh, Shadi;  Li, Lain-Jong;  Yang, Kesong;  Lo, Yu-Hwa;  Xu, Sheng
收藏  |  浏览/下载:27/0  |  提交时间:2020/07/03

Strain engineering is a powerful tool with which to enhance semiconductor device performance(1,2). Halide perovskites have shown great promise in device applications owing to their remarkable electronic and optoelectronic properties(3-5). Although applying strain to halide perovskites has been frequently attempted, including using hydrostatic pressurization(6-8), electrostriction(9), annealing(10-12), van der Waals force(13), thermal expansion mismatch(14), and heat-induced substrate phase transition(15), the controllable and device-compatible strain engineering of halide perovskites by chemical epitaxy remains a challenge, owing to the absence of suitable lattice-mismatched epitaxial substrates. Here we report the strained epitaxial growth of halide perovskite single-crystal thin films on lattice-mismatched halide perovskite substrates. We investigated strain engineering of a-formamidinium lead iodide (alpha-FAPbI(3)) using both experimental techniques and theoretical calculations. By tailoring the substrate composition-and therefore its lattice parameter-a compressive strain as high as 2.4 per cent is applied to the epitaxial alpha-FAPbI(3) thin film. We demonstrate that this strain effectively changes the crystal structure, reduces the bandgap and increases the hole mobility of alpha-FAPbI(3). Strained epitaxy is also shown to have a substantial stabilization effect on the alpha-FAPbI(3) phase owing to the synergistic effects of epitaxial stabilization and strain neutralization. As an example, strain engineering is applied to enhance the performance of an alpha-FAPbI(3)-based photodetector.


  
Structure and mechanism of human diacylglycerol O-acyltransferase 1 期刊论文
NATURE, 2020, 581 (7808) : 329-+
作者:  Wu, Fan;  Zhao, Su;  Yu, Bin;  Chen, Yan-Mei;  Wang, Wen;  Song, Zhi-Gang;  Hu, Yi;  Tao, Zhao-Wu;  Tian, Jun-Hua;  Pei, Yuan-Yuan;  Yuan, Ming-Li;  Zhang, Yu-Ling;  Dai, Fa-Hui;  Liu, Yi;  Wang, Qi-Min;  Zheng, Jiao-Jiao;  Xu, Lin;  Holmes, Edward C.;  Zhang, Yong-Zhen
收藏  |  浏览/下载:24/0  |  提交时间:2020/07/03

The structure of human diacylglycerol O-acyltransferase 1, a membrane protein that synthesizes triacylglycerides, is solved with cryo-electron microscopy, providing insight into its function and mechanism of enzymatic activity.


Diacylglycerol O-acyltransferase 1 (DGAT1) synthesizes triacylglycerides and is required for dietary fat absorption and fat storage in humans(1). DGAT1 belongs to the membrane-bound O-acyltransferase (MBOAT) superfamily, members of which are found in all kingdoms of life and are involved in the acylation of lipids and proteins(2,3). How human DGAT1 and other mammalian members of the MBOAT family recognize their substrates and catalyse their reactions is unknown. The absence of three-dimensional structures also hampers rational targeting of DGAT1 for therapeutic purposes. Here we present the cryo-electron microscopy structure of human DGAT1 in complex with an oleoyl-CoA substrate. Each DGAT1 protomer has nine transmembrane helices, eight of which form a conserved structural fold that we name the MBOAT fold. The MBOAT fold in DGAT1 forms a hollow chamber in the membrane that encloses highly conserved catalytic residues. The chamber has separate entrances for each of the two substrates, fatty acyl-CoA and diacylglycerol. DGAT1 can exist as either a homodimer or a homotetramer and the two forms have similar enzymatic activity. The N terminus of DGAT1 interacts with the neighbouring protomer and these interactions are required for enzymatic activity.


  
Electromechanical coupling in the hyperpolarization-activated K+ channel KAT1 期刊论文
NATURE, 2020, 583 (7814) : 145-+
作者:  Jin, Zhenming;  Du, Xiaoyu;  Xu, Yechun;  Deng, Yongqiang;  Liu, Meiqin;  Zhao, Yao;  Zhang, Bing;  Li, Xiaofeng;  Zhang, Leike;  Peng, Chao;  Duan, Yinkai;  Yu, Jing;  Wang, Lin;  Yang, Kailin;  Liu, Fengjiang;  Jiang, Rendi;  Yang, Xinglou;  You, Tian;  Liu, Xiaoce
收藏  |  浏览/下载:28/0  |  提交时间:2020/07/03

Voltage-gated potassium (K-v) channels coordinate electrical signalling and control cell volume by gating in response to membrane depolarization or hyperpolarization. However, although voltage-sensing domains transduce transmembrane electric field changes by a common mechanism involving the outward or inward translocation of gating charges(1-3), the general determinants of channel gating polarity remain poorly understood(4). Here we suggest a molecular mechanism for electromechanical coupling and gating polarity in non-domain-swapped K-v channels on the basis of the cryo-electron microscopy structure of KAT1, the hyperpolarization-activated K-v channel from Arabidopsis thaliana. KAT1 displays a depolarized voltage sensor, which interacts with a closed pore domain directly via two interfaces and indirectly via an intercalated phospholipid. Functional evaluation of KAT1 structure-guided mutants at the sensor-pore interfaces suggests a mechanism in which direct interaction between the sensor and the C-linker hairpin in the adjacent pore subunit is the primary determinant of gating polarity. We suggest that an inward motion of the S4 sensor helix of approximately 5-7 angstrom can underlie a direct-coupling mechanism, driving a conformational reorientation of the C-linker and ultimately opening the activation gate formed by the S6 intracellular bundle. This direct-coupling mechanism contrasts with allosteric mechanisms proposed for hyperpolarization-activated cyclic nucleotide-gated channels(5), and may represent an unexpected link between depolarization- and hyperpolarization-activated channels.


The cryo-electron microscopy structure of the hyperpolarization-activated K+ channel KAT1 points to a direct-coupling mechanism between S4 movement and the reorientation of the C-linker.