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Phenol hydroxylase that catalyzes the conversion of phenol to catechol in Rhodococcus erythropolis UPV-1 was identified as a two-component flavin-dependent monooxygenase. The two proteins are encoded by the genes pheA1 and pheA2, located very closely in the genome. The sequenced pheA1 gene was composed of 1,629 bp encoding a protein of 542 amino acids, whereas the pheA2 gene consisted of 570 bp encoding a protein of 189 amino acids. The deduced amino acid sequences of both genes showed high homology with several two-component aromatic hydroxylases. The genes were cloned separately in cells of Escherichia coli M15 as hexahistidine-tagged proteins, and the recombinant proteins His(6)PheA1 and His(6)PheA2 were purified and its catalytic activity characterized. His(6)PheA1 exists as a homotetramer of four identical subunits of 62 kDa that has no phenol hydroxylase activity on its own. His(6)PheA2 is a homodimeric flavin reductase, consisting of two identical subunits of 22 kDa, that uses NAD(P)H in order to reduce flavin adenine dinucleotide (FAD), according to a random sequential kinetic mechanism. The reductase activity was strongly inhibited by thiol-blocking reagents. The hydroxylation of phenol in vitro requires the presence of both His(6)PheA1 and His(6)PheA2 components, in addition to NADH and FAD, but the physical interaction between the proteins is not necessary for the reaction.

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Purification, characterization and cloning of aldehyde dehydrogenase from Rhodococcus erythropolis UPV-1

Jaureguibeitia

Saá

Llama

et al. 2007

Appl Microbiol Biotechnol

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The enzyme responsible for formaldehyde removal in industrial wastewaters by cells of Rhodococcus erythropolis UPV-1 was identified as a broad-specific aldehyde dehydrogenase (EC 1.2.1.3). The enzyme was purified to electrophoretic homogeneity from ethanol-grown cells with a specific activity of 19.5 U mg-1 protein and an activity recovery of 56%. The enzyme showed an isoelectric point (pI) of 5.3 and was a trimer of 162 kDa consisting of three identical 54-kDa subunits. It was specific for NAD+ and showed hyperbolic kinetics for this coenzyme (Km=90 microM), but sigmoidal kinetics for the aliphatic aldehydes used as substrates. The enzyme affinity for aldehydes increased with their hydrocarbon chain length, ranging from 333 microM for formaldehyde to 85 nM for n-octanal. The corresponding calculated Hill coefficients were in the 1.55-2.77 range. With n-propanal as substrate, the optimum pH and temperature for activity were 9.5-10.0 and 47.5 degrees C, respectively, with an Ea for catalysis of 28.6 kJ mol-1. NAD+ protected the enzyme against thermal inactivation, but aldehydes were ineffective. The activity was severely inhibited by p-hydroxymercuribenzoate, indicating that a thiol was essential for catalysis. The 1,524-bp aldhR gene encoding a 507-amino-acid protein was expressed in cells of Escherichia coli M15 as a hexahistidine-tagged protein.

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Biological treatment of phenolic industrial wastewaters by Rhodococcus erythropolis UPV-1

Hidalgo

Jaureguibeitia

Prieto

et al. 2002

Enzyme and Microbial Technology

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Validation of the Biofish-300 HIS Enzymatic Biosensor for the Detection of Histamine in Fishery Products

Salleres

González

Arantzamendi

et al. 2016

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The Biofish-300 HIS method is a simple, reliable, and specific enzymatic biosensor for the detection of histamine. This technology is highly specific and selective and allows quantification of histamine in fishery products (fresh/frozen and processed) in a short time frame (2-3 min). Histamine in raw tuna, raw mackerel, raw sardine, raw anchovy, boiled tuna, canned tuna in water, canned tuna in oil, canned mackerel in tomato sauce, canned pickled sardine, and canned salted anchovy was analyzed using a water-based extract. Matrix-specific assay procedures and calibration curves were used to enable analyses to be carried out across multiple sample types. The performance of this assay was examined using samples that were naturally contaminated (reference materials and interlaboratory studies) and spiked with histamine. All data were judged against previously established acceptance criteria. Performance measures were evaluated for linearity, selectivity, matrix, lot consistency, and robustness. Results produced in all performance measures, except robustness, were within acceptable ranges. Out-of-range robustness results reflected deviation in sample volume compared to the standard assay procedures. Positive interferences from the presence of agmatine were shown.

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