Engineering TM1459 for Stabilisation against Inactivation by Amino Acid Oxidation

Birgit Grill; Tea Pavkov-Keller; Christoph Grininger; Barbara Darnhofer; Karl Gruber; Mélanie Hall; Helmut Schwab; Kerstin Steiner

doi:10.1002/cite.202200176

Engineering TM1459 for Stabilisation against Inactivation by Amino Acid Oxidation

Birgit Grill, Tea Pavkov-Keller, Christoph Grininger, Barbara Darnhofer, Karl Gruber, Mélanie Hall, Helmut Schwab^*, Kerstin Steiner^*

^*Korrespondierende/r Autor/-in für diese Arbeit

Publikation: Beitrag in einer Fachzeitschrift › Artikel › Begutachtung

Abstract

Oxidative alkene cleavage is a highly interesting reaction to obtain aldehydes and ketones. The Mn-dependent protein TM1459 from Thermotoga maritima can catalyse alkene cleavage of styrene derivatives in the presence of tert-butyl hydroperoxide. Despite the high thermal stability of the enzyme, it gets inactivated during the reaction. The data reported here indicate that auto-oxidation is responsible for the low stability of TM1459 in the oxidative environment required for the alkene cleavage reaction. By targeting the exchange of residues prone to oxidation, this phenomenon was successfully prevented. Importantly, the stability to oxidation conveyed by the amino acid exchanges led to increased enzyme activity. However, the exchanges resulted in slightly modified positions of two of the four metal-binding amino acids, thereby strongly impacting metal binding.

Originalsprache	englisch
Seiten (von - bis)	596-606
Seitenumfang	11
Fachzeitschrift	Chemie-Ingenieur-Technik
Jahrgang	95
Ausgabenummer	4
Frühes Online-Datum	23 Feb. 2023
DOIs	https://doi.org/10.1002/cite.202200176
Publikationsstatus	Veröffentlicht - Apr. 2023

ASJC Scopus subject areas

Chemie (insg.)
Chemische Verfahrenstechnik (insg.)
Wirtschaftsingenieurwesen und Fertigungstechnik

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10.1002/cite.202200176Lizenz: CC BY 4.0

Chemie Ingenieur Technik - 2023 - Grill - Engineering TM1459 for Stabilisation against Inactivation by Amino Acid OxidationEndgültige, publizierte Fassung, 845 KBLizenz: CC BY 4.0

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title = "Engineering TM1459 for Stabilisation against Inactivation by Amino Acid Oxidation",

abstract = "Oxidative alkene cleavage is a highly interesting reaction to obtain aldehydes and ketones. The Mn-dependent protein TM1459 from Thermotoga maritima can catalyse alkene cleavage of styrene derivatives in the presence of tert-butyl hydroperoxide. Despite the high thermal stability of the enzyme, it gets inactivated during the reaction. The data reported here indicate that auto-oxidation is responsible for the low stability of TM1459 in the oxidative environment required for the alkene cleavage reaction. By targeting the exchange of residues prone to oxidation, this phenomenon was successfully prevented. Importantly, the stability to oxidation conveyed by the amino acid exchanges led to increased enzyme activity. However, the exchanges resulted in slightly modified positions of two of the four metal-binding amino acids, thereby strongly impacting metal binding.",

keywords = "Alkene cleavage, Amino acid oxidation, Cupin, Stability",

author = "Birgit Grill and Tea Pavkov-Keller and Christoph Grininger and Barbara Darnhofer and Karl Gruber and M{\'e}lanie Hall and Helmut Schwab and Kerstin Steiner",

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T1 - Engineering TM1459 for Stabilisation against Inactivation by Amino Acid Oxidation

AU - Grill, Birgit

AU - Pavkov-Keller, Tea

AU - Grininger, Christoph

AU - Darnhofer, Barbara

AU - Gruber, Karl

AU - Hall, Mélanie

AU - Schwab, Helmut

AU - Steiner, Kerstin

PY - 2023/4

Y1 - 2023/4

N2 - Oxidative alkene cleavage is a highly interesting reaction to obtain aldehydes and ketones. The Mn-dependent protein TM1459 from Thermotoga maritima can catalyse alkene cleavage of styrene derivatives in the presence of tert-butyl hydroperoxide. Despite the high thermal stability of the enzyme, it gets inactivated during the reaction. The data reported here indicate that auto-oxidation is responsible for the low stability of TM1459 in the oxidative environment required for the alkene cleavage reaction. By targeting the exchange of residues prone to oxidation, this phenomenon was successfully prevented. Importantly, the stability to oxidation conveyed by the amino acid exchanges led to increased enzyme activity. However, the exchanges resulted in slightly modified positions of two of the four metal-binding amino acids, thereby strongly impacting metal binding.

AB - Oxidative alkene cleavage is a highly interesting reaction to obtain aldehydes and ketones. The Mn-dependent protein TM1459 from Thermotoga maritima can catalyse alkene cleavage of styrene derivatives in the presence of tert-butyl hydroperoxide. Despite the high thermal stability of the enzyme, it gets inactivated during the reaction. The data reported here indicate that auto-oxidation is responsible for the low stability of TM1459 in the oxidative environment required for the alkene cleavage reaction. By targeting the exchange of residues prone to oxidation, this phenomenon was successfully prevented. Importantly, the stability to oxidation conveyed by the amino acid exchanges led to increased enzyme activity. However, the exchanges resulted in slightly modified positions of two of the four metal-binding amino acids, thereby strongly impacting metal binding.

KW - Alkene cleavage

KW - Amino acid oxidation

KW - Cupin

KW - Stability

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Engineering TM1459 for Stabilisation against Inactivation by Amino Acid Oxidation

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ASJC Scopus subject areas

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