Phenolic acid decarboxylase of Aspergillus luchuensis plays a crucial role in 4-vinylguaiacol production during awamori brewing

Aspergillus luchuensis has been used to produce awamori, a distilled liquor, in Okinawa, Japan. Vanillin, derived from ferulic acid (FA) in rice grains, is one of the characteristic flavors in aged and matured awamori, known as kusu. Decarboxylation of FA leads to the production of 4-vinylguaiacol (...

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Published in:Journal of bioscience and bioengineering 2020-10, Vol.130 (4), p.352-359
Main Authors: Maeda, Mayumi, Motosoko, Marin, Tokashiki, Tatsunori, Tokashiki, Jikian, Mizutani, Osamu, Uechi, Keiko, Goto, Masatoshi, Taira, Toki
Format: Article
Language:English
Subjects:
4-Vinylguaiacol
Aspergillus luchuensis
Awamori
Ferulic acid
Koji
Phenolic acid decarboxylase
Vanillin
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cited_by cdi_FETCH-LOGICAL-c432t-fbf8833bd9772a16e15b4d3554f4a6c2057bbe855b13a4326ea0ca120426e7903
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container_title Journal of bioscience and bioengineering
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creator Maeda, Mayumi
Motosoko, Marin
Tokashiki, Tatsunori
Tokashiki, Jikian
Mizutani, Osamu
Uechi, Keiko
Goto, Masatoshi
Taira, Toki
description Aspergillus luchuensis has been used to produce awamori, a distilled liquor, in Okinawa, Japan. Vanillin, derived from ferulic acid (FA) in rice grains, is one of the characteristic flavors in aged and matured awamori, known as kusu. Decarboxylation of FA leads to the production of 4-vinylguaiacol (4-VG), which is converted to vanillin by natural oxidization. However, the mechanism underlying FA conversion to 4-VG has remained unknown in awamori brewing. In our previous studies, we showed that phenolic acid decarboxylase from A. luchuensis (AlPAD) could catalyze the conversion of FA to 4-VG, and that AlPAD is functionally expressed during koji making (Maeda et al., J. Biosci. Bioeng., 126, 162–168, 2018). In this study, to understand the contribution of AlPAD to 4-VG production in awamori brewing, we created an alpad disruptant (Δalpad) and compared its 4-VG productivity to that of the wild-type strain. The amount of 4-VG in the distillate of moromi prepared with the wild-type strain showed a significant increase, proportional to the time required for koji making. In the Δalpad strain, the amount of 4-VG was very small and remained unchanged during the koji making. In an awamori brewing test using koji harvested 42–66 h after inoculation, the contribution of AlPAD to 4-VG production was in the range of 88–94 %. These results indicate that AlPAD plays a key role in 4-VG production during awamori brewing.
doi_str_mv 10.1016/j.jbiosc.2020.05.004
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Vanillin, derived from ferulic acid (FA) in rice grains, is one of the characteristic flavors in aged and matured awamori, known as kusu. Decarboxylation of FA leads to the production of 4-vinylguaiacol (4-VG), which is converted to vanillin by natural oxidization. However, the mechanism underlying FA conversion to 4-VG has remained unknown in awamori brewing. In our previous studies, we showed that phenolic acid decarboxylase from A. luchuensis (AlPAD) could catalyze the conversion of FA to 4-VG, and that AlPAD is functionally expressed during koji making (Maeda et al., J. Biosci. Bioeng., 126, 162–168, 2018). In this study, to understand the contribution of AlPAD to 4-VG production in awamori brewing, we created an alpad disruptant (Δalpad) and compared its 4-VG productivity to that of the wild-type strain. The amount of 4-VG in the distillate of moromi prepared with the wild-type strain showed a significant increase, proportional to the time required for koji making. In the Δalpad strain, the amount of 4-VG was very small and remained unchanged during the koji making. In an awamori brewing test using koji harvested 42–66 h after inoculation, the contribution of AlPAD to 4-VG production was in the range of 88–94 %. 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subjects 4-Vinylguaiacol
Aspergillus luchuensis
Awamori
Ferulic acid
Koji
Phenolic acid decarboxylase
Vanillin
title Phenolic acid decarboxylase of Aspergillus luchuensis plays a crucial role in 4-vinylguaiacol production during awamori brewing
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