The tetrameric structure of the novel haloalkane dehalogenase DpaA from Paraglaciecola agarilytica NO2.
Andrii MazurTatyana PrudnikovaPavel GrinkevichJeroen R MestersDaria MrazovaRadka ChaloupkovaJiri DamborskyMichal KutyPetr KolenkoIvana Kuta SmatanovaPublished in: Acta crystallographica. Section D, Structural biology (2021)
Haloalkane dehalogenases (EC 3.8.1.5) are microbial enzymes that catalyse the hydrolytic conversion of halogenated compounds, resulting in a halide ion, a proton and an alcohol. These enzymes are used in industrial biocatalysis, bioremediation and biosensing of environmental pollutants or for molecular tagging in cell biology. The novel haloalkane dehalogenase DpaA described here was isolated from the psychrophilic and halophilic bacterium Paraglaciecola agarilytica NO2, which was found in marine sediment collected from the East Sea near Korea. Gel-filtration experiments and size-exclusion chromatography provided information about the dimeric composition of the enzyme in solution. The DpaA enzyme was crystallized using the sitting-drop vapour-diffusion method, yielding rod-like crystals that diffracted X-rays to 2.0 Å resolution. Diffraction data analysis revealed a case of merohedral twinning, and subsequent structure modelling and refinement resulted in a tetrameric model of DpaA, highlighting an uncommon multimeric nature for a protein belonging to haloalkane dehalogenase subfamily I.
Keyphrases
- data analysis
- heavy metals
- single cell
- mass spectrometry
- microbial community
- single molecule
- cell therapy
- high speed
- healthcare
- liquid chromatography
- room temperature
- health information
- high resolution
- human health
- high performance liquid chromatography
- binding protein
- alcohol consumption
- hyaluronic acid
- climate change
- life cycle
- ms ms
- wound healing
- transcription factor
- crystal structure
- label free