Related literature: Difference between revisions
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Angel Mozo-Villiarías*,1 and Enrique Quero | == Structural studies of psychrophilic, mesophilic, and thermophilic proteins == | ||
Theoretical Analysis and Computational Predictions of Protein Thermostability | |||
Euiyoung Bae and George N. Phillips, Jr. | |||
[[Media:Phillips04.pdf | Structures and Analysis of Highly Homologous Psychrophilic, Mesophilic, and Thermophilic Adenylate Kinases]] <br> | |||
JBC 279 (2004) 28202-28208. | |||
== Analysis of protein thermostability == | |||
Vojtěch Spiwok & Petra Lipovová & Tereza Skálová & Jarmila Dušková & Jan Dohnálek & Jindřich Hašek & Nicholas J. Russell & Blanka Králová <br> | |||
[[Media:kralova06.pdf | Cold-active enzymes studied by comparative molecular dynamics simulation]] <br> | |||
J Mol Model (2007) 13:485–497. | |||
Angel Mozo-Villiarías*,1 and Enrique Quero <br> | |||
[[Media:Querol2006.pdf | Theoretical Analysis and Computational Predictions of Protein Thermostability]] <br> | |||
Current Bioinformatics, 2006, 1, 25-32 25 | Current Bioinformatics, 2006, 1, 25-32 25 | ||
Enrique Querol1, Josep A-Perez-Pons1 and Angel Mozo-VUlarias<br> | |||
[[Media:Querol2003.pdf | Analysis of protein conformational characteristics related to thermostability]] <br> | |||
Protein Engineering vol.9 no.3 pp.265-271, 1996 | |||
Alessandro Grottesi, Marc-Antoine Ceruso, Alfredo Colosimo, and Alfredo Di Nola<br> | |||
[[Media:Grottesi2002.pdf | Molecular Dynamics Study of a Hyperthermophilic and a Mesophilic Rubredoxin]]<br> | |||
PROTEINS: Structure, Function, and Genetics 46:287–294 (2002) | |||
== General molecular dynamics literature == | |||
Wilfred F. van Gunsteren,* Dirk Bakowies, Riccardo Baron, Indira Chandrasekhar, | |||
Markus Christen, Xavier Daura, Peter Gee, Daan P. Geerke, Alice Gl!ttli, | |||
Philippe H. H$nenberger, Mika A. Kastenholz, Chris Oostenbrink, Merijn Schenk, | |||
Daniel Trzesniak, Nico F. A. van der Vegt, and Haibo B. Yu <br> | |||
[[Media:wilfred06_review.pdf | Biomolecular Modeling: Goals, Problems, Perspectives]]<br> | |||
Angew. Chem. Int. Ed. 2006, 45, 4064 – 4092 | |||
--[[User:ThomasHuber|ThomasHuber]] 08:58, 27 February 2008 (EST) | |||
Latest revision as of 01:50, 19 March 2008
Structural studies of psychrophilic, mesophilic, and thermophilic proteins
Euiyoung Bae and George N. Phillips, Jr.
Structures and Analysis of Highly Homologous Psychrophilic, Mesophilic, and Thermophilic Adenylate Kinases
JBC 279 (2004) 28202-28208.
Analysis of protein thermostability
Vojtěch Spiwok & Petra Lipovová & Tereza Skálová & Jarmila Dušková & Jan Dohnálek & Jindřich Hašek & Nicholas J. Russell & Blanka Králová
Cold-active enzymes studied by comparative molecular dynamics simulation
J Mol Model (2007) 13:485–497.
Angel Mozo-Villiarías*,1 and Enrique Quero
Theoretical Analysis and Computational Predictions of Protein Thermostability
Current Bioinformatics, 2006, 1, 25-32 25
Enrique Querol1, Josep A-Perez-Pons1 and Angel Mozo-VUlarias
Analysis of protein conformational characteristics related to thermostability
Protein Engineering vol.9 no.3 pp.265-271, 1996
Alessandro Grottesi, Marc-Antoine Ceruso, Alfredo Colosimo, and Alfredo Di Nola
Molecular Dynamics Study of a Hyperthermophilic and a Mesophilic Rubredoxin
PROTEINS: Structure, Function, and Genetics 46:287–294 (2002)
General molecular dynamics literature
Wilfred F. van Gunsteren,* Dirk Bakowies, Riccardo Baron, Indira Chandrasekhar,
Markus Christen, Xavier Daura, Peter Gee, Daan P. Geerke, Alice Gl!ttli,
Philippe H. H$nenberger, Mika A. Kastenholz, Chris Oostenbrink, Merijn Schenk,
Daniel Trzesniak, Nico F. A. van der Vegt, and Haibo B. Yu
Biomolecular Modeling: Goals, Problems, Perspectives
Angew. Chem. Int. Ed. 2006, 45, 4064 – 4092
--ThomasHuber 08:58, 27 February 2008 (EST)
