Discovery and Characterization of a Novel Thermostable β-Amino Acid Transaminase from a Meiothermus Strain Isolated in an Icelandic Hot Spring

Erica E. Ferrandi; Ivan Bassanini; Barbara Sechi; Marta Vanoni; Davide Tessaro; Sóley Ruth Gudbergsdóttir; Sergio Riva; Xu Peng; Daniela Monti

doi:10.1002/biot.202000125

Discovery and Characterization of a Novel Thermostable β-Amino Acid Transaminase from a Meiothermus Strain Isolated in an Icelandic Hot Spring

Erica E. Ferrandi, Ivan Bassanini, Barbara Sechi, Marta Vanoni, Davide Tessaro, Sóley Ruth Gudbergsdóttir, Sergio Riva, Xu Peng, Daniela Monti^*

^*Corresponding author for this work

Functional Genomics

Research output: Contribution to journal › Journal article › Research › peer-review

8 Citations (Scopus)

Abstract

AMeiothermusstrain capable of using beta-phenylalanine for growth is isolated by culture enrichment of samples collected in hot environments and the genome is sequenced showing the presence of 22 putative transaminase (TA) sequences. On the basis of phylogenetic and sequence analysis, a TA termed Ms-TA2 is selected for further studies. The enzyme is successfully produced inEscherichia coliRosetta(DE3) cells, with 70 mg of pure protein obtained from 1 L culture after purification by affinity chromatography. Ms-TA2 shows high activity toward (S)-beta-phenylalanine and other (S)-beta-amino acids, as well as a preference for alpha-ketoglutarate and aromatic aldehydes as amino acceptors. Moreover, Ms-TA2 is shown to be a thermostable enzyme by maintaining about 60% of the starting activity after 3 h incubation at 50 degrees C and showing a melting temperature of about 73 degrees C. Finally, a homology-based structural model of Ms-TA2 is built and key active site interactions for substrate and cofactor binding are analyzed.

Original language	English
Article number	2000125
Journal	Biotechnology Journal
Volume	15
Issue number	11
Number of pages	9
ISSN	1860-6768
DOIs	https://doi.org/10.1002/biot.202000125
Publication status	Published - 2020

Keywords

amine transferases
biocatalysis
culture enrichment
thermostability
beta-amino acids
PYRUVATE TRANSAMINASE
OMEGA-TRANSAMINASE
IDENTIFICATION
ALGORITHM
SEQUENCE

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10.1002/biot.202000125

Cite this

Discovery and Characterization of a Novel Thermostable β-Amino Acid Transaminase from a Meiothermus Strain Isolated in an Icelandic Hot Spring. / Ferrandi, Erica E.; Bassanini, Ivan; Sechi, Barbara; Vanoni, Marta; Tessaro, Davide; Gudbergsdóttir, Sóley Ruth; Riva, Sergio; Peng, Xu; Monti, Daniela.

In: Biotechnology Journal, Vol. 15, No. 11, 2000125, 2020.

Research output: Contribution to journal › Journal article › Research › peer-review

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title = "Discovery and Characterization of a Novel Thermostable β-Amino Acid Transaminase from a Meiothermus Strain Isolated in an Icelandic Hot Spring",

abstract = "AMeiothermusstrain capable of using beta-phenylalanine for growth is isolated by culture enrichment of samples collected in hot environments and the genome is sequenced showing the presence of 22 putative transaminase (TA) sequences. On the basis of phylogenetic and sequence analysis, a TA termed Ms-TA2 is selected for further studies. The enzyme is successfully produced inEscherichia coliRosetta(DE3) cells, with 70 mg of pure protein obtained from 1 L culture after purification by affinity chromatography. Ms-TA2 shows high activity toward (S)-beta-phenylalanine and other (S)-beta-amino acids, as well as a preference for alpha-ketoglutarate and aromatic aldehydes as amino acceptors. Moreover, Ms-TA2 is shown to be a thermostable enzyme by maintaining about 60% of the starting activity after 3 h incubation at 50 degrees C and showing a melting temperature of about 73 degrees C. Finally, a homology-based structural model of Ms-TA2 is built and key active site interactions for substrate and cofactor binding are analyzed.",

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T1 - Discovery and Characterization of a Novel Thermostable β-Amino Acid Transaminase from a Meiothermus Strain Isolated in an Icelandic Hot Spring

AU - Ferrandi, Erica E.

AU - Bassanini, Ivan

AU - Sechi, Barbara

AU - Vanoni, Marta

AU - Tessaro, Davide

AU - Gudbergsdóttir, Sóley Ruth

AU - Riva, Sergio

AU - Peng, Xu

AU - Monti, Daniela

PY - 2020

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N2 - AMeiothermusstrain capable of using beta-phenylalanine for growth is isolated by culture enrichment of samples collected in hot environments and the genome is sequenced showing the presence of 22 putative transaminase (TA) sequences. On the basis of phylogenetic and sequence analysis, a TA termed Ms-TA2 is selected for further studies. The enzyme is successfully produced inEscherichia coliRosetta(DE3) cells, with 70 mg of pure protein obtained from 1 L culture after purification by affinity chromatography. Ms-TA2 shows high activity toward (S)-beta-phenylalanine and other (S)-beta-amino acids, as well as a preference for alpha-ketoglutarate and aromatic aldehydes as amino acceptors. Moreover, Ms-TA2 is shown to be a thermostable enzyme by maintaining about 60% of the starting activity after 3 h incubation at 50 degrees C and showing a melting temperature of about 73 degrees C. Finally, a homology-based structural model of Ms-TA2 is built and key active site interactions for substrate and cofactor binding are analyzed.

AB - AMeiothermusstrain capable of using beta-phenylalanine for growth is isolated by culture enrichment of samples collected in hot environments and the genome is sequenced showing the presence of 22 putative transaminase (TA) sequences. On the basis of phylogenetic and sequence analysis, a TA termed Ms-TA2 is selected for further studies. The enzyme is successfully produced inEscherichia coliRosetta(DE3) cells, with 70 mg of pure protein obtained from 1 L culture after purification by affinity chromatography. Ms-TA2 shows high activity toward (S)-beta-phenylalanine and other (S)-beta-amino acids, as well as a preference for alpha-ketoglutarate and aromatic aldehydes as amino acceptors. Moreover, Ms-TA2 is shown to be a thermostable enzyme by maintaining about 60% of the starting activity after 3 h incubation at 50 degrees C and showing a melting temperature of about 73 degrees C. Finally, a homology-based structural model of Ms-TA2 is built and key active site interactions for substrate and cofactor binding are analyzed.

KW - amine transferases

KW - biocatalysis

KW - culture enrichment

KW - thermostability

KW - beta-amino acids

KW - PYRUVATE TRANSAMINASE

KW - OMEGA-TRANSAMINASE

KW - IDENTIFICATION

KW - ALGORITHM

KW - SEQUENCE

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DO - 10.1002/biot.202000125

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VL - 15

JO - Biotechnology Journal

JF - Biotechnology Journal

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