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Structural and functional ramifications of antigenic drift in recent SARS-CoV-2 variants 期刊论文
Science, 2021
作者:  Meng Yuan;  Deli Huang;  Chang-Chun D. Lee;  Nicholas C. Wu;  Abigail M. Jackson;  Xueyong Zhu;  Hejun Liu;  Linghang Peng;  Marit J. van Gils;  Rogier W. Sanders;  Dennis R. Burton;  S. Momsen Reincke;  Harald Prüss;  Jakob Kreye;  David Nemazee;  Andrew B. Ward;  Ian A. Wilson
收藏  |  浏览/下载:11/0  |  提交时间:2021/08/17
Peta–electron volt gamma-ray emission from the Crab Nebula 期刊论文
Science, 2021
作者:  The LHAASO Collaboration*†;  Zhen Cao;  F. Aharonian;  Q. An;  Axikegu;  L. X. Bai;  Y. X. Bai;  Y. W. Bao;  D. Bastieri;  X. J. Bi;  Y. J. Bi;  H. Cai;  J. T. Cai;  Zhe Cao;  J. Chang;  J. F. Chang;  B. M. Chen;  E. S. Chen;  J. Chen;  Liang Chen;  Liang Chen;  Long Chen;  M. J. Chen;  M. L. Chen;  Q. H. Chen;  S. H. Chen;  S. Z. Chen;  T. L. Chen;  X. L. Chen;  Y. Chen;  N. Cheng;  Y. D. Cheng;  S. W. Cui;  X. H. Cui;  Y. D. Cui;  B. D’Ettorre Piazzoli;  B. Z. Dai;  H. L. Dai;  Z. G. Dai;  Danzengluobu;  D. della Volpe;  X. J. Dong;  K. K. Duan;  J. H. Fan;  Y. Z. Fan;  Z. X. Fan;  J. Fang;  K. Fang;  C. F. Feng;  L. Feng;  S. H. Feng;  Y. L. Feng;  B. Gao;  C. D. Gao;  L. Q. Gao;  Q. Gao;  W. Gao;  M. M. Ge;  L. S. Geng;  G. H. Gong;  Q. B. Gou;  M. H. Gu;  F. L. Guo;  J. G. Guo;  X. L. Guo;  Y. Q. Guo;  Y. Y. Guo;  Y. A. Han;  H. H. He;  H. N. He;  J. C. He;  S. L. He;  X. B. He;  Y. He;  M. Heller;  Y. K. Hor;  C. Hou;  X. Hou;  H. B. Hu;  S. Hu;  S. C. Hu;  X. J. Hu;  D. H. Huang;  Q. L. Huang;  W. H. Huang;  X. T. Huang;  X. Y. Huang;  Z. C. Huang;  F. Ji;  X. L. Ji;  H. Y. Jia;  K. Jiang;  Z. J. Jiang;  C. Jin;  T. Ke;  D. Kuleshov;  K. Levochkin;  B. B. Li;  Cheng Li;  Cong Li;  F. Li;  H. B. Li;  H. C. Li;  H. Y. Li;  Jian Li;  Jie Li;  K. Li;  W. L. Li;  X. R. Li;  Xin Li;  Xin Li;  Y. Li;  Y. Z. Li;  Zhe Li;  Zhuo Li;  E. W. Liang;  Y. F. Liang;  S. J. Lin;  B. Liu;  C. Liu;  D. Liu;  H. Liu;  H. D. Liu;  J. Liu;  J. L. Liu;  J. S. Liu;  J. Y. Liu;  M. Y. Liu;  R. Y. Liu;  S. M. Liu;  W. Liu;  Y. Liu;  Y. N. Liu;  Z. X. Liu;  W. J. Long;  R. Lu;  H. K. Lv;  B. Q. Ma;  L. L. Ma;  X. H. Ma;  J. R. Mao;  A. Masood;  Z. Min;  W. Mitthumsiri;  T. Montaruli;  Y. C. Nan;  B. Y. Pang;  P. Pattarakijwanich;  Z. Y. Pei;  M. Y. Qi;  Y. Q. Qi;  B. Q. Qiao;  J. J. Qin;  D. Ruffolo;  V. Rulev;  A. Saiz;  L. Shao;  O. Shchegolev;  X. D. Sheng;  J. Y. Shi;  H. C. Song;  Yu. V. Stenkin;  V. Stepanov;  Y. Su;  Q. N. Sun;  X. N. Sun;  Z. B. Sun;  P. H. T. Tam;  Z. B. Tang;  W. W. Tian;  B. D. Wang;  C. Wang;  H. Wang;  H. G. Wang;  J. C. Wang;  J. S. Wang;  L. P. Wang;  L. Y. Wang;  R. N. Wang;  Wei Wang;  Wei Wang;  X. G. Wang;  X. J. Wang;  X. Y. Wang;  Y. Wang;  Y. D. Wang;  Y. J. Wang;  Y. P. Wang;  Z. H. Wang;  Z. X. Wang;  Zhen Wang;  Zheng Wang;  D. M. Wei;  J. J. Wei;  Y. J. Wei;  T. Wen;  C. Y. Wu;  H. R. Wu;  S. Wu;  W. X. Wu;  X. F. Wu;  S. Q. Xi;  J. Xia;  J. J. Xia;  G. M. Xiang;  D. X. Xiao;  G. Xiao;  H. B. Xiao;  G. G. Xin;  Y. L. Xin;  Y. Xing;  D. L. Xu;  R. X. Xu;  L. Xue;  D. H. Yan;  J. Z. Yan;  C. W. Yang;  F. F. Yang;  J. Y. Yang;  L. L. Yang;  M. J. Yang;  R. Z. Yang;  S. B. Yang;  Y. H. Yao;  Z. G. Yao;  Y. M. Ye;  L. Q. Yin;  N. Yin;  X. H. You;  Z. Y. You;  Y. H. Yu;  Q. Yuan;  H. D. Zeng;  T. X. Zeng;  W. Zeng;  Z. K. Zeng;  M. Zha;  X. X. Zhai;  B. B. Zhang;  H. M. Zhang;  H. Y. Zhang;  J. L. Zhang;  J. W. Zhang;  L. X. Zhang;  Li Zhang;  Lu Zhang;  P. F. Zhang;  P. P. Zhang;  R. Zhang;  S. R. Zhang;  S. S. Zhang;  X. Zhang;  X. P. Zhang;  Y. F. Zhang;  Y. L. Zhang;  Yi Zhang;  Yong Zhang;  B. Zhao;  J. Zhao;  L. Zhao;  L. Z. Zhao;  S. P. Zhao;  F. Zheng;  Y. Zheng;  B. Zhou;  H. Zhou;  J. N. Zhou;  P. Zhou;  R. Zhou;  X. X. Zhou;  C. G. Zhu;  F. R. Zhu;  H. Zhu;  K. J. Zhu;  X. Zuo
收藏  |  浏览/下载:14/0  |  提交时间:2021/07/27
Structure-guided multivalent nanobodies block SARS-CoV-2 infection and suppress mutational escape 期刊论文
Science, 2021
作者:  Paul-Albert Koenig;  Hrishikesh Das;  Hejun Liu;  Beate M. Kümmerer;  Florian N. Gohr;  Lea-Marie Jenster;  Lisa D. J. Schiffelers;  Yonas M. Tesfamariam;  Miki Uchima;  Jennifer D. Wuerth;  Karl Gatterdam;  Natalia Ruetalo;  Maria H. Christensen;  Caroline I. Fandrey;  Sabine Normann;  Jan M. P. Tödtmann;  Steffen Pritzl;  Leo Hanke;  Jannik Boos;  Meng Yuan;  Xueyong Zhu;  Jonathan L. Schmid-Burgk;  Hiroki Kato;  Michael Schindler;  Ian A. Wilson;  Matthias Geyer;  Kerstin U. Ludwig;  B. Martin Hällberg;  Nicholas C. Wu;  Florian I. Schmidt
收藏  |  浏览/下载:20/0  |  提交时间:2021/02/17
Comparative host-coronavirus protein interaction networks reveal pan-viral disease mechanisms 期刊论文
Science, 2020
作者:  David E. Gordon;  Joseph Hiatt;  Mehdi Bouhaddou;  Veronica V. Rezelj;  Svenja Ulferts;  Hannes Braberg;  Alexander S. Jureka;  Kirsten Obernier;  Jeffrey Z. Guo;  Jyoti Batra;  Robyn M. Kaake;  Andrew R. Weckstein;  Tristan W. Owens;  Meghna Gupta;  Sergei Pourmal;  Erron W. Titus;  Merve Cakir;  Margaret Soucheray;  Michael McGregor;  Zeynep Cakir;  Gwendolyn Jang;  Matthew J. O’Meara;  Tia A. Tummino;  Ziyang Zhang;  Helene Foussard;  Ajda Rojc;  Yuan Zhou;  Dmitry Kuchenov;  Ruth Hüttenhain;  Jiewei Xu;  Manon Eckhardt;  Danielle L. Swaney;  Jacqueline M. Fabius;  Manisha Ummadi;  Beril Tutuncuoglu;  Ujjwal Rathore;  Maya Modak;  Paige Haas;  Kelsey M. Haas;  Zun Zar Chi Naing;  Ernst H. Pulido;  Ying Shi;  Inigo Barrio-Hernandez;  Danish Memon;  Eirini Petsalaki;  Alistair Dunham;  Miguel Correa Marrero;  David Burke;  Cassandra Koh;  Thomas Vallet;  Jesus A. Silvas;  Caleigh M. Azumaya;  Christian Billesbølle;  Axel F. Brilot;  Melody G. Campbell;  Amy Diallo;  Miles Sasha Dickinson;  Devan Diwanji;  Nadia Herrera;  Nick Hoppe;  Huong T. Kratochvil;  Yanxin Liu;  Gregory E. Merz;  Michelle Moritz;  Henry C. Nguyen;  Carlos Nowotny;  Cristina Puchades;  Alexandrea N. Rizo;  Ursula Schulze-Gahmen;  Amber M. Smith;  Ming Sun;  Iris D. Young;  Jianhua Zhao;  Daniel Asarnow;  Justin Biel;  Alisa Bowen;  Julian R. Braxton;  Jen Chen;  Cynthia M. Chio;  Un Seng Chio;  Ishan Deshpande;  Loan Doan;  Bryan Faust;  Sebastian Flores;  Mingliang Jin;  Kate Kim;  Victor L. Lam;  Fei Li;  Junrui Li;  Yen-Li Li;  Yang Li;  Xi Liu;  Megan Lo;  Kyle E. Lopez;  Arthur A. Melo;  Frank R. Moss;  Phuong Nguyen;  Joana Paulino;  Komal Ishwar Pawar;  Jessica K. Peters;  Thomas H. Pospiech;  Maliheh Safari;  Smriti Sangwan;  Kaitlin Schaefer;  Paul V. Thomas;  Aye C. Thwin;  Raphael Trenker;  Eric Tse;  Tsz Kin Martin Tsui;  Feng Wang;  Natalie Whitis;  Zanlin Yu;  Kaihua Zhang;  Yang Zhang;  Fengbo Zhou;  Daniel Saltzberg;  QCRG Structural Biology Consortium12†;  Anthony J. Hodder;  Amber S. Shun-Shion;  Daniel M. Williams;  Kris M. White;  Romel Rosales;  Thomas Kehrer;  Lisa Miorin;  Elena Moreno;  Arvind H. Patel;  Suzannah Rihn;  Mir M. Khalid;  Albert Vallejo-Gracia;  Parinaz Fozouni;  Camille R. Simoneau;  Theodore L. Roth;  David Wu;  Mohd Anisul Karim;  Maya Ghoussaini;  Ian Dunham;  Francesco Berardi;  Sebastian Weigang;  Maxime Chazal;  Jisoo Park;  James Logue;  Marisa McGrath;  Stuart Weston;  Robert Haupt;  C. James Hastie;  Matthew Elliott;  Fiona Brown;  Kerry A. Burness;  Elaine Reid;  Mark Dorward;  Clare Johnson;  Stuart G. Wilkinson;  Anna Geyer;  Daniel M. Giesel;  Carla Baillie;  Samantha Raggett;  Hannah Leech;  Rachel Toth;  Nicola Goodman;  Kathleen C. Keough;  Abigail L. Lind;  Zoonomia Consortium‡;  Reyna J. Klesh;  Kafi R. Hemphill;  Jared Carlson-Stevermer;  Jennifer Oki;  Kevin Holden;  Travis Maures;  Katherine S. Pollard;  Andrej Sali;  David A. Agard;  Yifan Cheng;  James S. Fraser;  Adam Frost;  Natalia Jura;  Tanja Kortemme;  Aashish Manglik;  Daniel R. Southworth;  Robert M. Stroud;  Dario R. Alessi;  Paul Davies;  Matthew B. Frieman;  Trey Ideker;  Carmen Abate;  Nolwenn Jouvenet;  Georg Kochs;  Brian Shoichet;  Melanie Ott;  Massimo Palmarini;  Kevan M. Shokat;  Adolfo García-Sastre;  Jeremy A. Rassen;  Robert Grosse;  Oren S. Rosenberg;  Kliment A. Verba;  Christopher F. Basler;  Marco Vignuzzi;  Andrew A. Peden;  Pedro Beltrao;  Nevan J. Krogan
收藏  |  浏览/下载:25/0  |  提交时间:2020/12/07
Isolation of potent SARS-CoV-2 neutralizing antibodies and protection from disease in a small animal model 期刊论文
Science, 2020
作者:  Thomas F. Rogers;  Fangzhu Zhao;  Deli Huang;  Nathan Beutler;  Alison Burns;  Wan-ting He;  Oliver Limbo;  Chloe Smith;  Ge Song;  Jordan Woehl;  Linlin Yang;  Robert K. Abbott;  Sean Callaghan;  Elijah Garcia;  Jonathan Hurtado;  Mara Parren;  Linghang Peng;  Sydney Ramirez;  James Ricketts;  Michael J. Ricciardi;  Stephen A. Rawlings;  Nicholas C. Wu;  Meng Yuan;  Davey M. Smith;  David Nemazee;  John R. Teijaro;  James E. Voss;  Ian A. Wilson;  Raiees Andrabi;  Bryan Briney;  Elise Landais;  Devin Sok;  Joseph G. Jardine;  Dennis R. Burton
收藏  |  浏览/下载:19/0  |  提交时间:2020/08/25
Evidence for Horizontal Blocking and Reflection of a Small-Scale Gravity Wave in the Mesosphere 期刊论文
JOURNAL OF GEOPHYSICAL RESEARCH-ATMOSPHERES, 2020, 125 (10)
作者:  Criddle, N. R.;  Pautet, P-D;  Yuan, T.;  Heale, C.;  Snively, J.;  Zhao, Y.;  Taylor, M. J.
收藏  |  浏览/下载:5/0  |  提交时间:2020/07/02
gravity wave  AMTM  Na lidar  mesosphere  wave blocking  
Disruption of emergency response to vulnerable populations during floods 期刊论文
NATURE SUSTAINABILITY, 2020
作者:  Yu, Dapeng;  Yin, Jie;  Wilby, Robert L.;  Lane, Stuart N.;  Aerts, Jeroen C. J. H.;  Lin, Ning;  Liu, Min;  Yuan, Hongyong;  Chen, Jianguo;  Prudhomme, Christel;  Guan, Mingfu;  Baruch, Avinoam;  Johnson, Charlie W. D.;  Tule, Xi;  Yu, Lizhong;  Xu, Shiyuan
收藏  |  浏览/下载:19/0  |  提交时间:2020/05/20
Elesclomol alleviates Menkes pathology and mortality by escorting Cu to cuproenzymes in mice 期刊论文
Science, 2020
作者:  Liam M. Guthrie;  Shivatheja Soma;  Sai Yuan;  Andres Silva;  Mohammad Zulkifli;  Thomas C. Snavely;  Hannah Faith Greene;  Elyssa Nunez;  Brogan Lynch;  Courtney De Ville;  Vinit Shanbhag;  Franklin R. Lopez;  Arjun Acharya;  Michael J. Petris;  Byung-Eun Kim;  Vishal M. Gohil;  James C. Sacchettini
收藏  |  浏览/下载:11/0  |  提交时间:2020/05/13
The fate of carbon in a mature forest under carbon dioxide enrichment 期刊论文
NATURE, 2020, 580 (7802) : 227-+
作者:  Sun, P. Z.;  Yang, Q.;  Kuang, W. J.;  Stebunov, Y. V.;  Xiong, W. Q.;  Yu, J.;  Nair, R. R.;  Katsnelson, M. I.;  Yuan, S. J.;  Grigorieva, I. V.;  Lozada-Hidalgo, M.;  Wang, F. C.;  Geim, A. K.
收藏  |  浏览/下载:70/0  |  提交时间:2020/05/13

Carbon dioxide enrichment of a mature forest resulted in the emission of the excess carbon back into the atmosphere via enhanced ecosystem respiration, suggesting that mature forests may be limited in their capacity to mitigate climate change.


Atmospheric carbon dioxide enrichment (eCO(2)) can enhance plant carbon uptake and growth(1-5), thereby providing an important negative feedback to climate change by slowing the rate of increase of the atmospheric CO2 concentration(6). Although evidence gathered from young aggrading forests has generally indicated a strong CO2 fertilization effect on biomass growth(3-5), it is unclear whether mature forests respond to eCO(2) in a similar way. In mature trees and forest stands(7-10), photosynthetic uptake has been found to increase under eCO(2) without any apparent accompanying growth response, leaving the fate of additional carbon fixed under eCO(2) unclear(4,5,7-11). Here using data from the first ecosystem-scale Free-Air CO2 Enrichment (FACE) experiment in a mature forest, we constructed a comprehensive ecosystem carbon budget to track the fate of carbon as the forest responded to four years of eCO(2) exposure. We show that, although the eCO(2) treatment of +150 parts per million (+38 per cent) above ambient levels induced a 12 per cent (+247 grams of carbon per square metre per year) increase in carbon uptake through gross primary production, this additional carbon uptake did not lead to increased carbon sequestration at the ecosystem level. Instead, the majority of the extra carbon was emitted back into the atmosphere via several respiratory fluxes, with increased soil respiration alone accounting for half of the total uptake surplus. Our results call into question the predominant thinking that the capacity of forests to act as carbon sinks will be generally enhanced under eCO(2), and challenge the efficacy of climate mitigation strategies that rely on ubiquitous CO2 fertilization as a driver of increased carbon sinks in global forests.


  
Layered nanocomposites by shear-flow-induced alignment of nanosheets 期刊论文
NATURE, 2020, 580 (7802) : 210-+
作者:  Rollie, Clare;  Chevallereau, Anne;  Watson, Bridget N. J.;  Chyou, Te-yuan;  Fradet, Olivier;  McLeod, Isobel;  Fineran, Peter C.;  Brown, Chris M.;  Gandon, Sylvain;  Westra, Edze R.
收藏  |  浏览/下载:39/0  |  提交时间:2020/07/03

Layered nanocomposites fabricated using a continuous and scalable process achieve properties exceeding those of natural nacre, the result of stiffened matrix polymer chains confined between highly aligned nanosheets.


Biological materials, such as bones, teeth and mollusc shells, are well known for their excellent strength, modulus and toughness(1-3). Such properties are attributed to the elaborate layered microstructure of inorganic reinforcing nanofillers, especially two-dimensional nanosheets or nanoplatelets, within a ductile organic matrix(4-6). Inspired by these biological structures, several assembly strategies-including layer-by-layer(4,7,8), casting(9,10), vacuum filtration(11-13) and use of magnetic fields(14,15)-have been used to develop layered nanocomposites. However, how to produce ultrastrong layered nanocomposites in a universal, viable and scalable manner remains an open issue. Here we present a strategy to produce nanocomposites with highly ordered layered structures using shear-flow-induced alignment of two-dimensional nanosheets at an immiscible hydrogel/oil interface. For example, nanocomposites based on nanosheets of graphene oxide and clay exhibit a tensile strength of up to 1,215 +/- 80 megapascals and a Young'  s modulus of 198.8 +/- 6.5 gigapascals, which are 9.0 and 2.8 times higher, respectively, than those of natural nacre (mother of pearl). When nanosheets of clay are used, the toughness of the resulting nanocomposite can reach 36.7 +/- 3.0 megajoules per cubic metre, which is 20.4 times higher than that of natural nacre  meanwhile, the tensile strength is 1,195 +/- 60 megapascals. Quantitative analysis indicates that the well aligned nanosheets form a critical interphase, and this results in the observed mechanical properties. We consider that our strategy, which could be readily extended to align a variety of two-dimensional nanofillers, could be applied to a wide range of structural composites and lead to the development of high-performance composites.