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5DRK

2.3 Angstrom Structure of CPII, a nitrogen regulatory PII-like protein from Thiomonas intermedia K12, bound to ADP, AMP and bicarbonate.

Summary for 5DRK
Entry DOI10.2210/pdb5drk/pdb
Related5DS7
DescriptorNitrogen regulatory protein P-II, ADENOSINE MONOPHOSPHATE, ADENOSINE-5'-DIPHOSPHATE, ... (5 entities in total)
Functional Keywordscarbon regulatory pii protein, cpii, nitrogen regulatory pii protein, nucleotide binding, adp hydrolysis, bicarbonate binding, acetate binding, metal binding protein
Biological sourceThiomonas intermedia (strain K12)
Total number of polymer chains3
Total formula weight36688.03
Authors
Wheatley, N.M.,Ngo, J.,Cascio, D.,Sawaya, M.R.,Yeates, T.O. (deposition date: 2015-09-15, release date: 2016-10-12, Last modification date: 2024-03-06)
Primary citationWheatley, N.M.,Eden, K.D.,Ngo, J.,Rosinski, J.S.,Sawaya, M.R.,Cascio, D.,Collazo, M.,Hoveida, H.,Hubbell, W.L.,Yeates, T.O.
A PII-Like Protein Regulated by Bicarbonate: Structural and Biochemical Studies of the Carboxysome-Associated CPII Protein.
J.Mol.Biol., 428:4013-4030, 2016
Cited by
PubMed Abstract: Autotrophic bacteria rely on various mechanisms to increase intracellular concentrations of inorganic forms of carbon (i.e., bicarbonate and CO) in order to improve the efficiency with which they can be converted to organic forms. Transmembrane bicarbonate transporters and carboxysomes play key roles in accumulating bicarbonate and CO, but other regulatory elements of carbon concentration mechanisms in bacteria are less understood. In this study, after analyzing the genomic regions around α-type carboxysome operons, we characterize a protein that is conserved across these operons but has not been previously studied. On the basis of a series of apo- and ligand-bound crystal structures and supporting biochemical data, we show that this protein, which we refer to as the carboxysome-associated PII protein (CPII), represents a new and distinct subfamily within the broad superfamily of previously studied PII regulatory proteins, which are generally involved in regulating nitrogen metabolism in bacteria. CPII undergoes dramatic conformational changes in response to ADP binding, and the affinity for nucleotide binding is strongly enhanced by the presence of bicarbonate. CPII therefore appears to be a unique type of PII protein that senses bicarbonate availability, consistent with its apparent genomic association with the carboxysome and its constituents.
PubMed: 27464895
DOI: 10.1016/j.jmb.2016.07.015
PDB entries with the same primary citation
Experimental method
X-RAY DIFFRACTION (2.38 Å)
Structure validation

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