Efficient and long-term vanillin production from 4-vinylguaiacol using immobilized whole cells expressing Cso2 protein

Tsubasa Saito; Riku Aono; Toshiki Furuya; Kuniki Kino

doi:10.1016/j.jbiosc.2020.04.012

Efficient and long-term vanillin production from 4-vinylguaiacol using immobilized whole cells expressing Cso2 protein

Tsubasa Saito, Riku Aono, Toshiki Furuya, Kuniki Kino^*

^*Corresponding author for this work

School of Advanced Science and Engineering

Research output: Contribution to journal › Article › peer-review

6 Citations (Scopus)

Abstract

Vanillin is a well-known fragrant, flavoring compound. Previously, we established a method of coenzyme-independent vanillin production via an oxygenase from Caulobacter segnis ATCC 21756, called Cso2, that converts 4-vinylguaiacol to vanillin and formaldehyde using oxygen. In this study, we found that reactive oxygen species inhibited the catalytic activity of Cso2, and the addition of catalase increased vanillin production. Since Escherichia coli harbors catalases, we used E. coli cells expressing Cso2 to produce vanillin. Cell immobilization in calcium alginate enabled the long-term use of the E. coli cells for vanillin production. Thus, we demonstrate the possibility of using immobilized E. coli cells for both continuous and repeated batch vanillin production without any coenzymes.

Original language	English
Pages (from-to)	260-264
Number of pages	5
Journal	Journal of Bioscience and Bioengineering
Volume	130
Issue number	3
DOIs	https://doi.org/10.1016/j.jbiosc.2020.04.012
Publication status	Published - 2020 Sept

Keywords

Carotenoid cleavage oxygenase
Coenzyme-independent dioxygenase
Immobilization
Vanillin
Whole cell reaction

ASJC Scopus subject areas

Biotechnology
Bioengineering
Applied Microbiology and Biotechnology

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10.1016/j.jbiosc.2020.04.012

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title = "Efficient and long-term vanillin production from 4-vinylguaiacol using immobilized whole cells expressing Cso2 protein",

abstract = "Vanillin is a well-known fragrant, flavoring compound. Previously, we established a method of coenzyme-independent vanillin production via an oxygenase from Caulobacter segnis ATCC 21756, called Cso2, that converts 4-vinylguaiacol to vanillin and formaldehyde using oxygen. In this study, we found that reactive oxygen species inhibited the catalytic activity of Cso2, and the addition of catalase increased vanillin production. Since Escherichia coli harbors catalases, we used E. coli cells expressing Cso2 to produce vanillin. Cell immobilization in calcium alginate enabled the long-term use of the E. coli cells for vanillin production. Thus, we demonstrate the possibility of using immobilized E. coli cells for both continuous and repeated batch vanillin production without any coenzymes.",

keywords = "Carotenoid cleavage oxygenase, Coenzyme-independent dioxygenase, Immobilization, Vanillin, Whole cell reaction",

author = "Tsubasa Saito and Riku Aono and Toshiki Furuya and Kuniki Kino",

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year = "2020",

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AU - Saito, Tsubasa

AU - Aono, Riku

AU - Furuya, Toshiki

AU - Kino, Kuniki

PY - 2020/9

Y1 - 2020/9

N2 - Vanillin is a well-known fragrant, flavoring compound. Previously, we established a method of coenzyme-independent vanillin production via an oxygenase from Caulobacter segnis ATCC 21756, called Cso2, that converts 4-vinylguaiacol to vanillin and formaldehyde using oxygen. In this study, we found that reactive oxygen species inhibited the catalytic activity of Cso2, and the addition of catalase increased vanillin production. Since Escherichia coli harbors catalases, we used E. coli cells expressing Cso2 to produce vanillin. Cell immobilization in calcium alginate enabled the long-term use of the E. coli cells for vanillin production. Thus, we demonstrate the possibility of using immobilized E. coli cells for both continuous and repeated batch vanillin production without any coenzymes.

AB - Vanillin is a well-known fragrant, flavoring compound. Previously, we established a method of coenzyme-independent vanillin production via an oxygenase from Caulobacter segnis ATCC 21756, called Cso2, that converts 4-vinylguaiacol to vanillin and formaldehyde using oxygen. In this study, we found that reactive oxygen species inhibited the catalytic activity of Cso2, and the addition of catalase increased vanillin production. Since Escherichia coli harbors catalases, we used E. coli cells expressing Cso2 to produce vanillin. Cell immobilization in calcium alginate enabled the long-term use of the E. coli cells for vanillin production. Thus, we demonstrate the possibility of using immobilized E. coli cells for both continuous and repeated batch vanillin production without any coenzymes.

KW - Carotenoid cleavage oxygenase

KW - Coenzyme-independent dioxygenase

KW - Immobilization

KW - Vanillin

KW - Whole cell reaction

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Efficient and long-term vanillin production from 4-vinylguaiacol using immobilized whole cells expressing Cso2 protein

Abstract

Keywords

ASJC Scopus subject areas

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