@article{somalinga_foss_grunden_2023, title={Biochemical characterization of a psychrophilic and halotolerant a-carbonic anhydrase from a deep-sea bacterium, Photobacterium profundum}, volume={9}, ISSN={["2471-1888"]}, DOI={10.3934/microbiol.2023028}, abstractNote={<abstract>
<p>Prokaryotic α–carbonic anhydrases (α-CA) are metalloenzymes that catalyze the reversible hydration of CO<sub>2</sub> to bicarbonate and proton. We had reported the first crystal structure of a pyschrohalophilic α–CA from a deep-sea bacterium, <italic>Photobacterium profundum</italic> SS9. In this manuscript, we report the first biochemical characterization of <italic>P. profundum</italic> α–CA (PprCA) which revealed several catalytic properties that are atypical for this class of CA's. Purified PprCA exhibited maximal catalytic activity at psychrophilic temperatures with substantial decrease in activity at mesophilic and thermophilic range. Similar to other α–CA's, Ppr9A showed peak activity at alkaline pH (pH 11), although, PprCA retained 88% of its activity even at acidic pH (pH 5). Exposing PprCA to varying concentrations of oxidizing and reducing agents revealed that N-terminal cysteine residues in PprCA may play a role in the structural stability of the enzyme. Although inefficient in CO<sub>2</sub> hydration activity under mesophilic and thermophilic temperatures, PprCA exhibited salt-dependent thermotolerance and catalytic activity under extreme halophilic conditions. Similar to other well-characterized α–CA's, PprCA is also inhibited by monovalent anions even at low concentrations. Finally, we demonstrate that PprCA accelerates CO<sub>2</sub> biomineralization to calcium carbonate under alkaline conditions.</p>
</abstract>}, number={3}, journal={AIMS MICROBIOLOGY}, author={Somalinga, Vijayakumar and Foss, Emily and Grunden, Amy M.}, year={2023}, pages={540–553} }
 @article{somalinga_buhrman_arun_rose_grunden_2016, title={A High-Resolution Crystal Structure of a Psychrohalophilic alpha-Carbonic Anhydrase from Photobacterium profundum Reveals a Unique Dimer Interface}, volume={11}, ISSN={["1932-6203"]}, url={https://europepmc.org/articles/PMC5148590}, DOI={10.1371/journal.pone.0168022}, abstractNote={Bacterial α–carbonic anhydrases (α-CA) are zinc containing metalloenzymes that catalyze the rapid interconversion of CO2 to bicarbonate and a proton. We report the first crystal structure of a pyschrohalophilic α–CA from a deep-sea bacterium, Photobacterium profundum. Size exclusion chromatography of the purified P. profundum α–CA (PprCA) reveals that the protein is a heterogeneous mix of monomers and dimers. Furthermore, an “in-gel” carbonic anhydrase activity assay, also known as protonography, revealed two distinct bands corresponding to monomeric and dimeric forms of PprCA that are catalytically active. The crystal structure of PprCA was determined in its native form and reveals a highly conserved “knot-topology” that is characteristic of α–CA’s. Similar to other bacterial α–CA’s, PprCA also crystallized as a dimer. Furthermore, dimer interface analysis revealed the presence of a chloride ion (Cl-) in the interface which is unique to PprCA and has not been observed in any other α–CA’s characterized so far. Molecular dynamics simulation and chloride ion occupancy analysis shows 100% occupancy for the Cl- ion in the dimer interface. Zinc coordinating triple histidine residues, substrate binding hydrophobic patch residues, and the hydrophilic proton wire residues are highly conserved in PprCA and are identical to other well-studied α–CA’s.}, number={12}, journal={PLOS ONE}, publisher={Public Library of Science (PLoS)}, author={Somalinga, Vijayakumar and Buhrman, Greg and Arun, Ashikha and Rose, Robert B. and Grunden, Amy M.}, editor={Hofmann, AndreasEditor}, year={2016}, month={Dec} }