Effect of single-point mutations on the stability and immunogenicity of a recombinant ricin A chain subunit vaccine antigen. Submitted by Anonymous on Sat, 2015-03-21 18:33 Read more about Effect of single-point mutations on the stability and immunogenicity of a recombinant ricin A chain subunit vaccine antigen.
The designability of protein switches by chemical rescue of structure: mechanisms of inactivation and reactivation. Submitted by Anonymous on Sat, 2015-03-21 18:31 Read more about The designability of protein switches by chemical rescue of structure: mechanisms of inactivation and reactivation.
Design of a phosphorylatable PDZ domain with peptide-specific affinity changes. Submitted by Anonymous on Sun, 2015-03-15 12:10 Read more about Design of a phosphorylatable PDZ domain with peptide-specific affinity changes.
Computational protein design quantifies structural constraints on amino acid covariation. Submitted by Anonymous on Sun, 2015-03-15 12:10 Read more about Computational protein design quantifies structural constraints on amino acid covariation.
Amino-acid site variability among natural and designed proteins. Submitted by Anonymous on Sun, 2015-03-15 12:09 Read more about Amino-acid site variability among natural and designed proteins.
A comparison of successful and failed protein interface designs highlights the challenges of designing buried hydrogen bonds. Submitted by Anonymous on Sun, 2015-03-15 07:19 Read more about A comparison of successful and failed protein interface designs highlights the challenges of designing buried hydrogen bonds.
Predicting the tolerated sequences for proteins and protein interfaces using RosettaBackrub flexible backbone design. Submitted by Anonymous on Sun, 2015-03-15 07:19 Read more about Predicting the tolerated sequences for proteins and protein interfaces using RosettaBackrub flexible backbone design.
Flexible backbone sampling methods to model and design protein alternative conformations. Submitted by Anonymous on Sun, 2015-03-15 07:19 Read more about Flexible backbone sampling methods to model and design protein alternative conformations.
Backrub-like backbone simulation recapitulates natural protein conformational variability and improves mutant side-chain prediction. Submitted by Anonymous on Sun, 2015-03-15 06:45 Read more about Backrub-like backbone simulation recapitulates natural protein conformational variability and improves mutant side-chain prediction.
A simple model of backbone flexibility improves modeling of side-chain conformational variability. Submitted by Anonymous on Sun, 2015-03-15 06:45 Read more about A simple model of backbone flexibility improves modeling of side-chain conformational variability.