Nobuyuki Urano scite author profile

Nobuyuki Urano

4Publications

86Citation Statements Received

67Citation Statements Given

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Osaka Prefecture University, Kyoto University

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L-allo-Threonine aldolase with an H128Y/S292R mutation fromAeromonas jandaeiDK-39 reveals the structural basis of changes in substrate stereoselectivity

Qin

Imai

Miyakawa

et al. 2014

Acta Crystallogr D Biol Crystallogr

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L-allo-Threonine aldolase (LATA), a pyridoxal-5'-phosphate-dependent enzyme from Aeromonas jandaei DK-39, stereospecifically catalyzes the reversible interconversion of L-allo-threonine to glycine and acetaldehyde. Here, the crystal structures of LATA and its mutant LATA_H128Y/S292R were determined at 2.59 and 2.50 Å resolution, respectively. Their structures implied that conformational changes in the loop consisting of residues Ala123-Pro131, where His128 moved 4.2 Å outwards from the active site on mutation to a tyrosine residue, regulate the substrate specificity for L-allo-threonine versus L-threonine. Saturation mutagenesis of His128 led to diverse stereoselectivity towards L-allo-threonine and L-threonine. Moreover, the H128Y mutant showed the highest activity towards the two substrates, with an 8.4-fold increase towards L-threonine and a 2.0-fold increase towards L-allo-threonine compared with the wild-type enzyme. The crystal structures of LATA and its mutant LATA_H128Y/S292R reported here will provide further insights into the regulation of the stereoselectivity of threonine aldolases targeted for the catalysis of L-allo-threonine/L-threonine synthesis.

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A novel NADP⁺-dependent l-1-amino-2-propanol dehydrogenase from Rhodococcus erythropolis MAK154: a promising enzyme for the production of double chiral aminoalcohols

Kataoka

Nakamura

Urano

et al. 2006

Lett Appl Microbiol

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Aim: A novel NADP+‐dependent l‐1‐amino‐2‐propanol dehydrogenase was isolated from Rhodococcus erythropolis MAK154, and characterized. Methods and Results: The enzyme was inducibly produced on cultivation with aminoalcohols such as 1‐amino‐2‐propanol, 1‐amino‐2‐butanol and 2‐aminocyclohexanol. The enzyme catalyses the NADP+‐dependent oxidation of several aminoalcohols, and also the NADPH‐dependent asymmetric reduction of an aminoketone compound to a double chiral aminoalcohol, d‐pseudoephedrine. Amino acid sequence analysis showed that the enzyme might belong to the short‐chain dehydrogenase/reductase family. Conclusions: NADP+‐dependent l‐1‐amino‐2‐propanol dehydrogenase isolated from R. erythropolis MAK154 reversibly catalysed dehydrogenation of aminoalcohols, and exhibited a unique sterospecifity for the reduction reaction. Significance and Impact of the Study: The enzyme is a promising catalyst for the production of double chiral compound, d‐pseudoephedrine, from prochiral substrate.

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Genetic analysis around aminoalcohol dehydrogenase gene of Rhodococcus erythropolis MAK154: a putative GntR transcription factor in transcriptional regulation

Urano

Kataoka

Ishige

et al. 2010

Appl Microbiol Biotechnol

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NADP(+)-dependent aminoalcohol dehydrogenase (AADH) of Rhodococcus erythropolis MAK154 catalyzes the reduction of (S)-1-phenyl-1-keto-2-methylaminopropane ((S)-MAK) to d-pseudoephedrine, which is used as a pharmaceutical. AADH is suggested to participate in aminoalcohol or aminoketone metabolism in this organism because it is induced by the addition of several aminoalcohols, such as 1-amino-2-propanol. Genetic analysis of around the aadh gene showed that some open reading frames (ORFs) are involved in this metabolic pathway. Four of these ORFs might form a carboxysome-like polyhedral organelle, and others are predicted to encode aminotransferase, aldehyde dehydrogenase, phosphotransferase, and regulator protein. OrfE, a homologous ORF of the FadR subfamily of GntR transcriptional regulators, lies downstream from aadh. To investigate whether or not orfE plays a role in the regulation of aadh expression, the gene disruption mutant of R. erythropolis MAK154 was constructed. The ΔorfE strain showed higher AADH activity than wild-type strain. In addition, a transformed strain, which harbored multi-orfE, showed no AADH activity even in the induced condition with 1-amino-2-propanol. These results suggest that OrfE is a negative regulator that represses aadh expression in the absence of 1-amino-2-propanol.

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Directed evolution of an aminoalcohol dehydrogenase for efficient production of double chiral aminoalcohols

Urano

Fukui

Kumashiro

et al. 2011

Journal of Bioscience and Bioengineering

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Nobuyuki Urano

L-allo-Threonine aldolase with an H128Y/S292R mutation fromAeromonas jandaeiDK-39 reveals the structural basis of changes in substrate stereoselectivity

A novel NADP⁺-dependent l-1-amino-2-propanol dehydrogenase from Rhodococcus erythropolis MAK154: a promising enzyme for the production of double chiral aminoalcohols

Genetic analysis around aminoalcohol dehydrogenase gene of Rhodococcus erythropolis MAK154: a putative GntR transcription factor in transcriptional regulation

Directed evolution of an aminoalcohol dehydrogenase for efficient production of double chiral aminoalcohols

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Nobuyuki Urano

L-allo-Threonine aldolase with an H128Y/S292R mutation fromAeromonas jandaeiDK-39 reveals the structural basis of changes in substrate stereoselectivity

A novel NADP+-dependent l-1-amino-2-propanol dehydrogenase from Rhodococcus erythropolis MAK154: a promising enzyme for the production of double chiral aminoalcohols

Genetic analysis around aminoalcohol dehydrogenase gene of Rhodococcus erythropolis MAK154: a putative GntR transcription factor in transcriptional regulation

Directed evolution of an aminoalcohol dehydrogenase for efficient production of double chiral aminoalcohols

Contact Info

Product

Resources

About

A novel NADP⁺-dependent l-1-amino-2-propanol dehydrogenase from Rhodococcus erythropolis MAK154: a promising enzyme for the production of double chiral aminoalcohols