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7V3W

Crystal Structure of VpsR display novel dimeric architecture and c-di-GMP binding: mechanistic implications in oligomerization, ATPase activity and DNA binding.

Summary for 7V3W
Entry DOI10.2210/pdb7v3w/pdb
DescriptorVpsR, ADENOSINE-5'-TRIPHOSPHATE (2 entities in total)
Functional Keywordsx-ray crystallography; biofilm; fluorescence quenching; atpase activity; second-messenger, transcription
Biological sourceVibrio cholerae
Total number of polymer chains2
Total formula weight90458.58
Authors
Chakrabortty, T.,Sen, U.,Chowdhury, S.R. (deposition date: 2021-08-11, release date: 2022-04-06, Last modification date: 2023-11-29)
Primary citationChakrabortty, T.,Roy Chowdhury, S.,Ghosh, B.,Sen, U.
Crystal Structure of VpsR Revealed Novel Dimeric Architecture and c-di-GMP Binding Site: Mechanistic Implications in Oligomerization, ATPase Activity and DNA Binding.
J.Mol.Biol., 434:167354-167354, 2022
Cited by
PubMed Abstract: VpsR, the master regulator of biofilm formation in Vibrio cholerae, is an atypical NtrC1 type bEBP lacking residues essential for σ-RNAP binding and REC domain phosphorylation. Moreover, transcription from P, a promoter of biofilm biosynthesis, has been documented in presence of σ-RNAP/VpsR/c-di-GMP complex. It was proposed that c-di-GMP and VpsR together form an active transcription complex with σ-RNAP. However, the impact of c-di-GMP imparted on VpsR that leads to transcription activation with σ-RNAP remained elusive, largely due to the lack of the structure of VpsR and knowledge about c-di-GMP:VpsR interactions. In this direction we have solved the crystal structure of VpsR, containing REC and AAA domains, in apo, AMPPNP/GMPPNP and c-di-GMP bound states. Structures of VpsR unveiled distinctive REC domain orientation that leads to a novel dimeric association and noncanonical ATP/GTP binding. Moreover, we have demonstrated that at physiological pH VpsR remains as monomer having no ATPase activity but c-di-GMP imparted cooperativity to convert it to dimer with potent activity. Crystal structure of c-di-GMP:VpsR complex reveals that c-di-GMP binds near the C-terminal end of AAA domain. Trp quenching studies on VpsR, VpsR, VpsR, VpsR with c-di-GMP additionally demonstrated that c-di-GMP could potentially bind VpsR. We propose that c-di-GMP mediated tethering of VpsR with VpsR could likely favor generating the specific protein-DNA architecture for transcription activation.
PubMed: 34774564
DOI: 10.1016/j.jmb.2021.167354
PDB entries with the same primary citation
Experimental method
X-RAY DIFFRACTION (3.205 Å)
Structure validation

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