Hydrogen Peroxide < Hydrogen-Ion Concentration < Hydrolases

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List of bibliographic references indexed by Hydrogen-Ion Concentration

Number of relevant bibliographic references: 29.
[0-20] [0 - 20][0 - 29][20-28][20-40]

Ident.	Authors (with country if any)	Title
001994 (2013)	Carmina Verdiá-Báguena [Espagne] ; Jose L. Nieto-Torres ; Antonio Alcaraz ; Marta L. Dediego ; Luis Enjuanes ; Vicente M. Aguilella	Analysis of SARS-CoV E protein ion channel activity by tuning the protein and lipid charge.
001C66 (2012)	M. Jaume [République populaire de Chine] ; M S Yip ; Y W Kam ; C Y Cheung ; F. Kien ; A. Roberts ; P H Li ; I. Dutry ; N. Escriou ; M. Daeron ; R. Bruzzone ; K. Subbarao ; J S M. Peiris ; B. Nal ; R. Altmeyer	SARS CoV subunit vaccine: antibody-mediated neutralisation and enhancement.
002029 (2011)	Jessica Celigoy [États-Unis] ; Susanna Mcreynolds ; Michael Caffrey	The SARS-CoV heptad repeat 2 exhibits pH-induced helix formation.
002151 (2011)	Martial Jaume [République populaire de Chine] ; Ming S. Yip ; Chung Y. Cheung ; Hiu L. Leung ; Ping H. Li ; Francois Kien ; Isabelle Dutry ; Benoît Callendret ; Nicolas Escriou ; Ralf Altmeyer ; Beatrice Nal ; Marc Daëron ; Roberto Bruzzone ; J S Malik Peiris	Anti-severe acute respiratory syndrome coronavirus spike antibodies trigger infection of human immune cells via a pH- and cysteine protease-independent FcγR pathway.
002495 (2010)	Margaret A. Johnson [États-Unis] ; Kristaps Jaudzems ; Kurt Wüthrich	NMR Structure of the SARS-CoV Nonstructural Protein 7 in Solution at pH 6.5.
003036 (2008)	Hongliang Wang [République populaire de Chine] ; Peng Yang [République populaire de Chine] ; Kangtai Liu [République populaire de Chine] ; Feng Guo [République populaire de Chine] ; Yanli Zhang [République populaire de Chine] ; Gongyi Zhang [États-Unis] ; Chengyu Jiang [République populaire de Chine]	SARS coronavirus entry into host cells through a novel clathrin- and caveolae-independent endocytic pathway
003052 (2008)	Miyuki Kawase [Japon] ; Kazuya Shirato [Japon] ; Shutoku Matsuyama [Japon] ; Fumihiro Taguchi [Japon]	Protease-Mediated Entry via the Endosome of Human Coronavirus 229E▿
003152 (2008)	Berend Jan Bosch [Pays-Bas] ; Willem Bartelink ; Peter J M. Rottier	Cathepsin L functionally cleaves the severe acute respiratory syndrome coronavirus class I fusion protein upstream of rather than adjacent to the fusion peptide.
003192 (2008)	James Solowiej [États-Unis] ; James A. Thomson [États-Unis] ; Kevin Ryan [États-Unis] ; Chun Luo [États-Unis] ; Mingying He [États-Unis] ; Jihong Lou [États-Unis] ; Brion W. Murray [États-Unis, Oman]	Steady-State and Pre-Steady-State Kinetic Evaluation of Severe Acute Respiratory Syndrome Coronavirus (SARS-CoV) 3CLpro Cysteine Protease:  Development of an Ion-Pair Model for Catalysis
003611 (2007)	Patricia Eifart [Allemagne] ; Kai Ludwig ; Christoph Böttcher ; Cornelis A M. De Haan ; Peter J M. Rottier ; Thomas Korte ; Andreas Herrmann	Role of endocytosis and low pH in murine hepatitis virus strain A59 cell entry.
003D65 (2006)	Graham Simmons [États-Unis] ; Andrew J. Rennekamp ; Paul Bates	Proteolysis of SARS-associated coronavirus spike glycoprotein.
003F04 (2006)	Vito Graziano [États-Unis] ; William J. Mcgrath ; Ann Marie Degruccio ; John J. Dunn ; Walter F. Mangel	Enzymatic activity of the SARS coronavirus main proteinase dimer.
003F45 (2006)	Fang Li [États-Unis] ; Marcelo Berardi ; Wenhui Li ; Michael Farzan ; Philip R. Dormitzer ; Stephen C. Harrison	Conformational states of the severe acute respiratory syndrome coronavirus spike protein ectodomain.
003F74 (2006)	Heike Hofmann [Allemagne] ; Andrea Marzi ; Thomas Gramberg ; Martina Geier ; Krzysztof Pyrc ; Lia Van Der Hoek ; Ben Berkhout ; Stefan Pöhlmann	Attachment factor and receptor engagement of SARS coronavirus and human coronavirus NL63.
004504 (2005)	Jinzhi Tan [République populaire de Chine] ; Koen H G. Verschueren ; Kanchan Anand ; Jianhua Shen ; Maojun Yang ; Yechun Xu ; Zihe Rao ; Janna Bigalke ; Burkhard Heisen ; Jeroen R. Mesters ; Kaixian Chen ; Xu Shen ; Hualiang Jiang ; Rolf Hilgenfeld	pH-dependent conformational flexibility of the SARS-CoV main proteinase (M(pro)) dimer: molecular dynamics simulations and multiple X-ray structure analyses.
004611 (2005)	Ting Xu [Singapour] ; Amy Ooi ; Hooi Chen Lee ; Rupert Wilmouth ; Ding Xiang Liu ; Julien Lescar	Structure of the SARS coronavirus main proteinase as an active C2 crystallographic dimer.
004845 (2005)	Shuai Chen [République populaire de Chine] ; Li-Li Chen ; Hai-Bin Luo ; Tao Sun ; Jing Chen ; Fei Ye ; Jian-Hua Cai ; Jing-Kang Shen ; Xu Shen ; Hua-Liang Jiang	Enzymatic activity characterization of SARS coronavirus 3C-like protease by fluorescence resonance energy transfer technique.
004875 (2005)	Ting-Wai Lee [Canada] ; Maia M. Cherney ; Carly Huitema ; Jie Liu ; Karen Ellis James ; James C. Powers ; Lindsay D. Eltis ; Michael N G. James	Crystal structures of the main peptidase from the SARS coronavirus inhibited by a substrate-like aza-peptide epoxide.
005058 (2004)	Yanhui Xu [République populaire de Chine] ; Yiwei Liu ; Zhiyong Lou ; Lan Qin ; Xu Li ; Zhihong Bai ; Hai Pang ; Po Tien ; George F. Gao ; Zihe Rao	Structural basis for coronavirus-mediated membrane fusion. Crystal structure of mouse hepatitis virus spike protein fusion core.
005177 (2004)	Chi-Yuan Chou [Taïwan] ; Hui-Chuan Chang ; Wen-Chi Hsu ; Tien-Zheng Lin ; Chao-Hsiung Lin ; Gu-Gang Chang	Quaternary structure of the severe acute respiratory syndrome (SARS) coronavirus main protease.
005322 (2004)	Yuchun Nie [République populaire de Chine] ; Peigang Wang ; Xuanling Shi ; Guangwen Wang ; Jian Chen ; Aihua Zheng ; Wei Wang ; Zai Wang ; Xiuxia Qu ; Min Luo ; Lei Tan ; Xijun Song ; Xiaolei Yin ; Jianguo Chen ; Mingxiao Ding ; Hongkui Deng	Highly infectious SARS-CoV pseudotyped virus reveals the cell tropism and its correlation with receptor expression.

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