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4QOS

CRYSTAL STRUCTURE OF PSPF(1-265) E108Q MUTANT bound to ADP

Summary for 4QOS
Entry DOI10.2210/pdb4qos/pdb
Related2BJV 2BJW 2C96 2C98 2C99 2C9C 4QNM 4QNR
DescriptorPsp operon transcriptional activator, ADENOSINE-5'-DIPHOSPHATE, GLYCEROL, ... (5 entities in total)
Functional Keywordsbacterial sigma54 activator, atpase, atp-binding, dna-binding, sensory transduction, transcription regulation, two-component regulatory system, aaa domain, transcriptional activator for the phage shock protein (psp) operon (pspabcde) and pspg gene, transcription
Biological sourceEscherichia coli
Cellular locationCytoplasm (Potential): P37344
Total number of polymer chains1
Total formula weight30743.91
Authors
Darbari, V.C.,Lawton, E.,Lu, D.,Burrows, P.C.,Wiesler, S.,Joly, N.,Zhang, N.,Zhang, X.,Buck, M. (deposition date: 2014-06-20, release date: 2014-08-06, Last modification date: 2023-09-20)
Primary citationDarbari, V.C.,Lawton, E.,Lu, D.,Burrows, P.C.,Wiesler, S.,Joly, N.,Zhang, N.,Zhang, X.,Buck, M.
Molecular basis of nucleotide-dependent substrate engagement and remodeling by an AAA+ activator.
Nucleic Acids Res., 42:9249-9261, 2014
Cited by
PubMed Abstract: Binding and hydrolysis of ATP is universally required by AAA+ proteins to underpin their mechano-chemical work. Here we explore the roles of the ATPase site in an AAA+ transcriptional activator protein, the phage shock protein F (PspF), by specifically altering the Walker B motif sequence required in catalyzing ATP hydrolysis. One such mutant, the E108Q variant, is defective in ATP hydrolysis but fully remodels target transcription complexes, the RNAP-σ(54) holoenzyme, in an ATP dependent manner. Structural analysis of the E108Q variant reveals that unlike wild-type protein, which has distinct conformations for E108 residue in the ATP and ADP bound forms, E108Q adapts the same conformation irrespective of nucleotide bound. Our data show that the remodeling activities of E108Q are strongly favored on pre-melted DNA and engagement with RNAP-σ(54) using ATP binding can be sufficient to convert the inactive holoenzyme to an active form, while hydrolysis per se is required for nucleic acid remodeling that leads to transcription bubble formation. Furthermore, using linked dimer constructs, we show that RNAP-σ(54) engagement by adjacent subunits within a hexamer are required for this protein remodeling activity while DNA remodeling activity can tolerate defective ATP hydrolysis of alternating subunits.
PubMed: 25063294
DOI: 10.1093/nar/gku588
PDB entries with the same primary citation
Experimental method
X-RAY DIFFRACTION (1.42 Å)
Structure validation

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