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Helix bundle
Recent Advances in the Structural Biology of the 26S Proteasome
Topological Distribution of Four-A-Helix Bundles (Folding Motif/Solvent Accessibility/Helix Dipole) SCOTT R
Structural Plasticity of 4-Α-Helical Bundles Exemplified by the Puzzle-Like Molecular Assembly of the Rop Protein
Principles of Helix-Helix Packing in Proteins: the Helical Lattice Superposition Model Dirk Walther1*, Frank Eisenhaber1,2 and Patrick Argos1
Structural and Mechanistic Characterization of the Bacterial Proteasome-Related Proteins Bpa and Dop
Structural Basis for the Alternating Access Mechanism of the Cation Diffusion Facilitator Yiip
Implications for Proteasome Nuclear Localization Revealed by the Structure of the Nuclear Proteasome Tether Protein Cut8
Robust Denaturation of Villin Headpiece by Mos2 Nanosheet
Protein Folds in the All-Β and All-Α Classes
Banff Workshop - Entanglement in Biology; How Nature Controls the Topology of Proteins and DNA November 17 – 22, 2013
Atomistic Protein Folding Simulations on the Submillisecond Time Scale
From Sequence to Structure
Universality and Diversity of Folding Mechanics for Three-Helix Bundle Proteins
Structures of the Flax-Rust Effector Avrm Reveal Insights Into the Molecular
Significance of Knotted Structures for Function of Proteins and Nucleic Acids SEPTEMBER 17–21, 2014 | WARSAW, POLAND
Proteins Eugene Shakhnovich Harvard University Boulder, CO July 25-27 2012 Outline
Distinct Unfolding and Refolding Pathways of Ribonuclease a Revealed by Heating and Cooling Temperature Jumps
The Protein Folding Problem
Top View
Pierced Lasso Topology Controls Function in Leptin
Conotoxin Gene Superfamilies
Architecture and Assembly of the 19S Proteasome Regulatory Particle
Similar Structures to the E-To-H Helix Unit in the Globin-Like Fold Are Found in Other Helical Folds
Conotoxins: Chemistry and Biology
Modern Protein Design
Universality and Diversity of Folding Mechanics for Three-Helix Bundle Proteins
Introduction to Proteins
From Sequence to Structure
Proteins Fold, Domains & Structure Kevin Slep June 20Th, 2008
De Novo Protein Design: How Do We Expand Into the Universe of Possible Protein Structures?
Navigating the Structural Landscape of De Novo Α–Helical Bundles
Sub-Microsecond Protein Folding
Curriculum Vitae
List Publications
The Dynamic Nature of the Folded and Unfolded States of the Villin Headpiece Helical Subdomain
Sortase-Catalyzed Transformations That Improve the Properties of Cytokines
Computational De Novo Design of a Four-Helix Bundle Protein—DND 4HB
Structural and Functional Characterization of the Proteasomal Deubiquitinase Rpn11