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Side-chains:
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Ab initio:
GeNMR
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UNIO ATNOS-Candid
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Fragment-based:
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Template-based:
GeNMR
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Structure from chemical shifts:
Fragment-based:
WeNMR CS-Rosetta
BMRB CS-Rosetta
Homology-based:
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Torsion angles from chemical shifts:
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Secondary structure from chemical shifts:
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Flexibility from chemical shifts:
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Chemical shifts re-referencing:
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Molecular dynamics:
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From structure:
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ArShift- Aromatic
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PPM
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From sequence:
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Camcoil
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Disordered proteins:
MAXOCC
Format conversion & validation:
CCPN
From NMR-STAR 3.1
Validate NMR-STAR 3.1
NMR sample preparation:
Protein disorder:
DisMeta
Protein solubility:
camLILA
ccSOL
Camfold
camGroEL
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Isotope labeling:
UPLABEL
Solid-state NMR:
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Old 03-31-2015, 07:17 PM
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Default A Combined NMR and Computational Approach to Investigate Peptide Binding to a Designed Armadillo Repeat Protein.

A Combined NMR and Computational Approach to Investigate Peptide Binding to a Designed Armadillo Repeat Protein.

A Combined NMR and Computational Approach to Investigate Peptide Binding to a Designed Armadillo Repeat Protein.

J Mol Biol. 2015 Mar 24;

Authors: Ewald C, Christen MT, Watson RP, Mihajlovic M, Zhou T, Honegger A, Plückthun A, Caflisch A, Zerbe O

Abstract
The specific recognition of peptide sequences by proteins plays an important role both in biology and in diagnostic applications. Here we characterize the relatively weak binding of the peptide neurotensin (NT) to the previously developed Armadillo repeat protein (ArmRP) VG_328 by a multidisciplinary approach based on solution NMR spectroscopy, mutational studies, and molecular dynamics (MD) simulations, totaling 20?s for all MD runs. We describe assignment challenges arising from the repetitive nature of the protein sequence, and present novel approaches to address them. Partial assignments obtained for VG_328 in combination with chemical shift perturbations (CSPs) allowed us to identify the repeats not involved in binding. Their subsequent elimination resulted in a reduced-size binder with very similar affinity for NT, for which near-complete backbone assignments were achieved. A binding mode suggested by automatic docking and further validated by explicit solvent MD simulations is consistent with paramagnetic relaxation enhancement (PRE) data collected using spin-labeled NT. Favorable intermolecular interactions are observed in the MD simulations for the residues that were previously shown to contribute to binding in an Ala scan of NT. We further characterized the role of residues within the N-cap for protein stability and peptide binding. Our multidisciplinary approach demonstrates that even in the absence of crystallographic data an initial low-resolution picture for a low ?M peptide binder can be refined through the combination of NMR, protein design, docking and MD simulations to establish its binding mode, thereby providing valuable information for further design.


PMID: 25816772 [PubMed - as supplied by publisher]



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