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6GWM

Solution structure of rat RIP2 caspase recruitment domain

Summary for 6GWM
Entry DOI10.2210/pdb6gwm/pdb
NMR InformationBMRB: 34294
DescriptorReceptor-interacting serine/threonine-protein kinase 2 (1 entity in total)
Functional Keywordsrip2, card, caspase recruitment domain, rattus norvegicus, signaling protein
Biological sourceRattus norvegicus (Rat)
Total number of polymer chains1
Total formula weight14075.08
Authors
Mineev, K.S.,Goncharuk, S.A.,Artemieva, L.E.,Arseniev, A.S. (deposition date: 2018-06-25, release date: 2018-10-31, Last modification date: 2024-06-19)
Primary citationGoncharuk, S.A.,Artemieva, L.E.,Tabakmakher, V.M.,Arseniev, A.S.,Mineev, K.S.
CARD domain of rat RIP2 kinase: Refolding, solution structure, pH-dependent behavior and protein-protein interactions.
PLoS ONE, 13:e0206244-e0206244, 2018
Cited by
PubMed Abstract: RIP2, one of the RIP kinases, interacts with p75 neurotrophin receptor, regulating the neuron survival, and with NOD1 and NOD2 proteins, causing the innate immune response against gram-negative and gram-positive bacteria via its caspase recruitment domain (CARD). This makes RIP2 a prospective target for novel therapies, aimed to modulate the inflammatory diseases and neurogenesis/neurodegeneration. Several studies report the problems with the stability of human RIP2 CARD and its production in bacterial hosts, which is a prerequisite for the structural investigation with solution NMR spectroscopy. In the present work, we report the high yield production and refolding protocols and resolve the structure of rat RIP2 CARD. The structure reveals the important differences to the previously published conformation of the homologous human protein. Using solution NMR, we characterized the intramolecular mobility and pH-dependent behavior of RIP2 CARD, and found the propensity of the protein to form high-order oligomers at physiological pH while being monomeric under acidic conditions. The oligomerization of protein may be explained, based on the electrostatic properties of its surface. Analysis of the structure and sequences of homologous proteins reveals the residues which are significant for the unusual fold of RIP2 CARD domains from different species. The high-throughput protein production/refolding protocols and proposed explanation for the protein oligomerization, provide an opportunity to design the stabilized variants of RIP2 CARD, which could be used to study the structural details of RIP2/NOD1/NOD2 interaction and perform the rational drug design.
PubMed: 30352081
DOI: 10.1371/journal.pone.0206244
PDB entries with the same primary citation
Experimental method
SOLUTION NMR
Structure validation

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