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Angelika Fuchs

Showing results (1-10 of 15) with videos related to

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Proteins|June 17, 2010
Structural comparison and classification of alpha-helical transmembrane domains based on helix interaction patternsAngelika Fuchs, Dmitrij Frishman
Proteins|August 16, 2008
Prediction of helix-helix contacts and interacting helices in polytopic membrane proteins using neural networksAngelika Fuchs, Andreas Kirschner, Dmitrij Frishman
Proteins|February 27, 2010
Current status of membrane protein structure classificationSindy Neumann, Angelika Fuchs, Armen Mulkidjanian, et al.
Plos One|November 9, 2013
Classification of α-helical membrane proteins using predicted helix architecturesSindy Neumann, Angelika Fuchs, Barbara Hummel, et al.
Plos Computational Biology|September 24, 2010
Correlated mutations: a hallmark of phenotypic amino acid substitutionsAndreas Kowarsch, Angelika Fuchs, Dmitrij Frishman, et al.
Plos Computational Biology|September 19, 2014
Examining variable domain orientations in antigen receptors gives insight into TCR-like antibody designJames Dunbar, Bernhard Knapp, Angelika Fuchs, et al.
Proteins|January 4, 2012
Camps 2.0: exploring the sequence and structure space of prokaryotic, eukaryotic, and viral membrane proteinsSindy Neumann, Holger Hartmann, Antonio J Martin-Galiano, et al.
Journal of Molecular Biology|October 24, 2007
Phenylalanine promotes interaction of transmembrane domains via GxxxG motifsStephanie Unterreitmeier, Angelika Fuchs, Teresa Schäffler, et al.
Mabs|July 16, 2015
MoFvAb: Modeling the Fv region of antibodiesAlexander Bujotzek, Angelika Fuchs, Changtao Qu, et al.
Journal of Molecular Biology|November 15, 2008
Complex patterns of histidine, hydroxylated amino acids and the GxxxG motif mediate high-affinity transmembrane domain interactionsJana R Herrmann, Johanna C Panitz, Stephanie Unterreitmeier, et al.
Pageof 2

Showing results (1-10 of 15) with videos related to

Sort By:
Pageof 2
Proteins|June 17, 2010
Structural comparison and classification of alpha-helical transmembrane domains based on helix interaction patternsAngelika Fuchs, Dmitrij Frishman
Proteins|August 16, 2008
Prediction of helix-helix contacts and interacting helices in polytopic membrane proteins using neural networksAngelika Fuchs, Andreas Kirschner, Dmitrij Frishman
Proteins|February 27, 2010
Current status of membrane protein structure classificationSindy Neumann, Angelika Fuchs, Armen Mulkidjanian, et al.
Plos One|November 9, 2013
Classification of α-helical membrane proteins using predicted helix architecturesSindy Neumann, Angelika Fuchs, Barbara Hummel, et al.
Plos Computational Biology|September 24, 2010
Correlated mutations: a hallmark of phenotypic amino acid substitutionsAndreas Kowarsch, Angelika Fuchs, Dmitrij Frishman, et al.
Plos Computational Biology|September 19, 2014
Examining variable domain orientations in antigen receptors gives insight into TCR-like antibody designJames Dunbar, Bernhard Knapp, Angelika Fuchs, et al.
Proteins|January 4, 2012
Camps 2.0: exploring the sequence and structure space of prokaryotic, eukaryotic, and viral membrane proteinsSindy Neumann, Holger Hartmann, Antonio J Martin-Galiano, et al.
Journal of Molecular Biology|October 24, 2007
Phenylalanine promotes interaction of transmembrane domains via GxxxG motifsStephanie Unterreitmeier, Angelika Fuchs, Teresa Schäffler, et al.
Mabs|July 16, 2015
MoFvAb: Modeling the Fv region of antibodiesAlexander Bujotzek, Angelika Fuchs, Changtao Qu, et al.
Journal of Molecular Biology|November 15, 2008
Complex patterns of histidine, hydroxylated amino acids and the GxxxG motif mediate high-affinity transmembrane domain interactionsJana R Herrmann, Johanna C Panitz, Stephanie Unterreitmeier, et al.
Pageof 2