Abstract
We present an online, interactive platform for comparative analysis of all available G-protein coupled receptor (GPCR) structures while correlating to functional data. The comprehensive platform encompasses structure similarity, secondary structure, protein backbone packing and movement, residue-residue contact networks, amino acid properties and prospective design of experimental mutagenesis studies. This lets any researcher tap the potential of sophisticated structural analyses enabling a plethora of basic and applied receptor research studies.
Highlights
Version of Record: A version of this preprint was published at Nature Structural & Molecular Biology on November 10th, 2021
Interactive platform for comparative analysis of all available G protein-coupled receptor structures while correlating to functional data
The comprehensive platform encompasses structure similarity, secondary structure, protein backbone packing and movement, residue-residue contact networks, amino acid properties and prospective design of experimental mutagenesis studies. This lets any researcher tap the potential of sophisticated structural analyses enabling a plethora of basic and applied research studies
Summary
Version of Record: A version of this preprint was published at Nature Structural & Molecular Biology on November 10th, 2021. Interactive platform for comparative analysis of all available G protein-coupled receptor structures while correlating to functional data. The comprehensive platform encompasses structure similarity, secondary structure, protein backbone packing and movement, residue-residue contact networks, amino acid properties and prospective design of experimental mutagenesis studies.
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