Peptides (isolation & purification) < Peptides (metabolism) < Peptides (pharmacology)

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List of bibliographic references

Number of relevant bibliographic references: 26.
[0-20] [0 - 20][0 - 26][20-25][20-40]

Ident.	Authors (with country if any)	Title
000855 (2004)	Kehu Yuan [République populaire de Chine] ; Ling Yi ; Jian Chen ; Xiuxia Qu ; Tingting Qing ; Xi Rao ; Pengfei Jiang ; Jianhe Hu ; Zikai Xiong ; Yuchun Nie ; Xuanling Shi ; Wei Wang ; Chen Ling ; Xiaolei Yin ; Keqiang Fan ; Luhua Lai ; Mingxiao Ding ; Hongkui Deng	Suppression of SARS-CoV entry by peptides corresponding to heptad regions on spike glycoprotein.
000948 (????)	Rong Zeng [République populaire de Chine] ; Hong-Qiang Ruan ; Xiao-Sheng Jiang ; Hu Zhou ; Lv Shi ; Lei Zhang ; Quan-Hu Sheng ; Qiang Tu ; Qi-Chang Xia ; Jia-Rui Wu	Proteomic analysis of SARS associated coronavirus using two-dimensional liquid chromatography mass spectrometry and one-dimensional sodium dodecyl sulfate-polyacrylamide gel electrophoresis followed by mass spectroemtric analysis.
000958 (2004)	K N Srinivasan [Singapour] ; G L Zhang ; A M Khan ; J T August ; V. Brusic	Prediction of class I T-cell epitopes: evidence of presence of immunological hot spots inside antigens.
000B73 (2004)	Yanhui Xu [République populaire de Chine] ; Jieqing Zhu ; Yiwei Liu ; Zhiyong Lou ; Fang Yuan ; Yueyong Liu ; David K. Cole ; Ling Ni ; Nan Su ; Lan Qin ; Xu Li ; Zhihong Bai ; John I. Bell ; Hai Pang ; Po Tien ; George F. Gao ; Zihe Rao	Characterization of the heptad repeat regions, HR1 and HR2, and design of a fusion core structure model of the spike protein from severe acute respiratory syndrome (SARS) coronavirus.
000C21 (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.
001297 (2006)	Tin-Yun Ho [Taïwan] ; Shih-Lu Wu ; Jaw-Chyun Chen ; Yen-Chiao Wei ; Shin-Ei Cheng ; Yung-Hsien Chang ; Hsu-Jan Liu ; Chien-Yun Hsiang	Design and biological activities of novel inhibitory peptides for SARS-CoV spike protein and angiotensin-converting enzyme 2 interaction.
001479 (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.
001532 (2006)	Zhe Yan [États-Unis] ; Brian Tripet ; Robert S. Hodges	Biophysical characterization of HRC peptide analogs interaction with heptad repeat regions of the SARS-coronavirus Spike fusion protein core.
001628 (2006)	Yonggang Sha [République populaire de Chine] ; Yingliang Wu ; Zhijian Cao ; Xiuling Xu ; Wenlan Wu ; Dahe Jiang ; Xin Mao ; Hui Liu ; Ying Zhu ; Rui Gong ; Wenxin Li	A convenient cell fusion assay for the study of SARS-CoV entry and inhibition.
001756 (2006)	Xiaonan Fang [République populaire de Chine] ; Lin-Bai Ye ; Yijuan Zhang ; Baozong Li ; Shanshan Li ; Lingbao Kong ; Yuhua Wang ; Hong Zheng ; Wei Wang ; Zhenghui Wu	Nucleocapsid amino acids 211 to 254, in particular, tetrad glutamines, are essential for the interaction between the nucleocapsid and membrane proteins of SARS-associated coronavirus.
001825 (2007)	Ting-Wai Lee [Canada] ; Maia M. Cherney ; Jie Liu ; Karen Ellis James ; James C. Powers ; Lindsay D. Eltis ; Michael N G. James	Crystal structures reveal an induced-fit binding of a substrate-like Aza-peptide epoxide to SARS coronavirus main peptidase.
001C19 (????)	Yanyan Huang [République populaire de Chine] ; Rui Zhao ; Jia Luo ; Shaoxiang Xiong ; Dihua Shangguan ; Hongwu Zhang ; Guoquan Liu ; Yi Chen	Design, synthesis and screening of antisense peptide based combinatorial peptide libraries towards an aromatic region of SARS-CoV.
001C36 (2008)	Ling-Hon Matthew Chu [République populaire de Chine] ; Siu-Hong Chan ; Sau-Na Tsai ; Yi Wang ; Christopher Hon-Ki Cheng ; Kam-Bo Wong ; Mary Miu-Yee Waye ; Sai-Ming Ngai	Fusion core structure of the severe acute respiratory syndrome coronavirus (SARS-CoV): in search of potent SARS-CoV entry inhibitors.
001C81 (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.
001C97 (2008)	Jaime Guillén [Espagne] ; Ana J. Pérez-Berná ; Miguel R. Moreno ; José Villalaín	A second SARS-CoV S2 glycoprotein internal membrane-active peptide. Biophysical characterization and membrane interaction.
001D32 (2008)	Jaime Guillén [Espagne] ; Paavo K J. Kinnunen ; José Villalaín	Membrane insertion of the three main membranotropic sequences from SARS-CoV S2 glycoprotein.
001D88 (2008)	Sarmistha Basak [Canada] ; Xiaolei Hao ; Andrew Chen ; Michel Chrétien ; Ajoy Basak	Structural and biochemical investigation of heptad repeat derived peptides of human SARS corona virus (hSARS-CoV) spike protein.
001F17 (2009)	Ikenna G. Madu [États-Unis] ; Shoshannah L. Roth [États-Unis] ; Sandrine Belouzard [États-Unis] ; Gary R. Whittaker [États-Unis]	Characterization of a Highly Conserved Domain within the Severe Acute Respiratory Syndrome Coronavirus Spike Protein S2 Domain with Characteristics of a Viral Fusion Peptide▿
002141 (2010)	Chunmei Li [République populaire de Chine] ; Yifei Qi ; Xin Teng ; Zongchang Yang ; Ping Wei ; Changsheng Zhang ; Lei Tan ; Lu Zhou ; Ying Liu ; Luhua Lai	Maturation mechanism of severe acute respiratory syndrome (SARS) coronavirus 3C-like proteinase.
002273 (2010)	Shengnan Zhang [République populaire de Chine] ; Nan Zhong [République populaire de Chine] ; Fei Xue [République populaire de Chine] ; Xue Kang [République populaire de Chine] ; Xiaobai Ren [République populaire de Chine] ; Jiaxuan Chen [République populaire de Chine] ; Changwen Jin [République populaire de Chine] ; Zhiyong Lou [République populaire de Chine] ; Bin Xia [République populaire de Chine]	Three-dimensional domain swapping as a mechanism to lock the active conformation in a super-active octamer of SARS-CoV main protease.
002377 (2011)	Lili Zhu [Allemagne] ; Shyla George ; Marco F. Schmidt ; Samer I. Al-Gharabli ; Jörg Rademann ; Rolf Hilgenfeld	Peptide aldehyde inhibitors challenge the substrate specificity of the SARS-coronavirus main protease.

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