Crystallographic Trapping of Reaction Intermediates in Quinolinic Acid Synthesis by NadA.
Anne VolbedaJaione Saez CabodevillaClaudine DarnaultOcéane GigarelThi-Hong-Lien HanOriane RenouxOlivier HamelinSandrine Ollagnier-de-ChoudensPatricia AmaraJuan C Fontecilla-CampsPublished in: ACS chemical biology (2018)
NadA is a multifunctional enzyme that condenses dihydroxyacetone phosphate (DHAP) with iminoaspartate (IA) to generate quinolinic acid (QA), the universal precursor of the nicotinamide adenine dinucleotide (NAD(P)) cofactor. Using X-ray crystallography, we have (i) characterized two of the reaction intermediates of QA synthesis using a "pH-shift" approach and a slowly reacting Thermotoga maritima NadA variant and (ii) observed the QA product, resulting from the degradation of an intermediate analogue, bound close to the entrance of a long tunnel leading to the solvent medium. We have also used molecular docking to propose a condensation mechanism between DHAP and IA based on two previously published Pyrococcus horikoshi NadA structures. The combination of reported data and our new results provide a structure-based complete catalytic sequence of QA synthesis by NadA.
Keyphrases
- molecular docking
- high resolution
- molecular dynamics simulations
- drug delivery
- magnetic resonance imaging
- big data
- magnetic resonance
- computed tomography
- machine learning
- deep learning
- mass spectrometry
- artificial intelligence
- data analysis
- dual energy
- metal organic framework
- electron transfer
- meta analyses
- solar cells
- anterior cruciate ligament reconstruction