Please use this identifier to cite or link to this item: https://doi.org/10.7717/peerj.882
Title: Cyclic nucleotide binding and structural changes in the isolated GAF domain of Anabaena adenylyl cyclase, CyaB2
Authors: Biswas, K.H 
Badireddy, S 
Rajendran, A
Anand, G.S 
Visweswariah, S.S
Keywords: adenylate cyclase
CyaB2 adenylyl cyclase
cyclic AMP
cyclic GMP
cyclic nucleotide
unclassified drug
algorithm
Article
binding affinity
bioluminescence resonance energy transfer
controlled study
crystal structure
enzyme linked immunosorbent assay
GAF domain
gene mutation
human
human cell
ligand binding
mass spectrometry
molecular docking
mutagenesis
nucleotide sequence
polymerase chain reaction
protein domain
protein expression
protein purification
radioimmunoassay
size exclusion chromatography
Western blotting
Issue Date: 2015
Citation: Biswas, K.H, Badireddy, S, Rajendran, A, Anand, G.S, Visweswariah, S.S (2015). Cyclic nucleotide binding and structural changes in the isolated GAF domain of Anabaena adenylyl cyclase, CyaB2. PeerJ 2015 (3) : e882. ScholarBank@NUS Repository. https://doi.org/10.7717/peerj.882
Abstract: GAF domains are a large family of regulatory domains, and a subset are found associated with enzymes involved in cyclic nucleotide (cNMP) metabolism such as adenylyl cyclases and phosphodiesterases. CyaB2, an adenylyl cyclase fromAnabaena, contains two GAF domains in tandem at the N-terminus and an adenylyl cyclase domain at the C-terminus. Cyclic AMP, but not cGMP, binding to the GAF domains of CyaB2 increases the activity of the cyclase domain leading to enhanced synthesis of cAMP. Here we show that the isolated GAFb domain of CyaB2 can bind both cAMP and cGMP, and enhanced specificity for cAMP is observed only when both the GAFa and the GAFb domains are present in tandem(GAFab domain). In silico docking and mutational analysis identified distinct residues important for interaction with either cAMP or cGMP in the GAFb domain. Structural changes associated with ligand binding to the GAF domains could not be detected by bioluminescence resonance energy transfer (BRET) experiments.However, amide hydrogen-deuterium exchange mass spectrometry (HDXMS) experiments provided insights into the structural basis for cAMP-induced allosteric regulation of the GAF domains, and differences in the changes induced by cAMP and cGMP binding to the GAF domain. Thus, our findings could allow the development of molecules that modulate the allosteric regulation by GAF domains present in pharmacologically relevant proteins. © 2015 Biswas et al.
Source Title: PeerJ
URI: https://scholarbank.nus.edu.sg/handle/10635/176158
ISSN: 2167-8359
DOI: 10.7717/peerj.882
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