Effects of Different G-Protein α-Subunits on Growth, Development and Secondary Metabolism of Monascus ruber M7

Strains of Monascus filamentous fungal species have been used to produce fermented foods in Asian countries, such as China, Japan, and The Korean Peninsula, for nearly 2,000 years. At present, their fermented products are widely used as food additives and nutraceutical supplements worldwide owing to...

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Main Authors: Ming Lei, Jiao Liu, Yang Fang, Yanchun Shao, Li Li, Jae-Hyuk Yu, Fusheng Chen
Format: Article
Language:English
Published: Frontiers Media S.A. 2019-07-01
Series:Frontiers in Microbiology
Subjects:
Online Access:https://www.frontiersin.org/article/10.3389/fmicb.2019.01555/full
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spelling doaj-d9e2675075b94c67ae7f8f9376941f632020-11-25T00:44:42ZengFrontiers Media S.A.Frontiers in Microbiology1664-302X2019-07-011010.3389/fmicb.2019.01555459725Effects of Different G-Protein α-Subunits on Growth, Development and Secondary Metabolism of Monascus ruber M7Ming Lei0Jiao Liu1Yang Fang2Yanchun Shao3Li Li4Jae-Hyuk Yu5Jae-Hyuk Yu6Fusheng Chen7Hubei International Scientific and Technological Cooperation Base of Traditional Fermented Foods, College of Food Science and Technology, Huazhong Agricultural University, Wuhan, ChinaInstitute of Quality Standard and Testing Technology for Agro-Products, Hubei Academy of Agricultural Sciences, Wuhan, ChinaNational Engineering Research Center for Natural Medicines, Chengdu, ChinaHubei International Scientific and Technological Cooperation Base of Traditional Fermented Foods, College of Food Science and Technology, Huazhong Agricultural University, Wuhan, ChinaCollege of Life Science, Yangtze University, Jingzhou, ChinaDepartments of Bacteriology and Genetics, University of Wisconsin – Madison, Madison, WI, United StatesDepartment of Systems Biotechnology, Konkuk University, Seoul, South KoreaHubei International Scientific and Technological Cooperation Base of Traditional Fermented Foods, College of Food Science and Technology, Huazhong Agricultural University, Wuhan, ChinaStrains of Monascus filamentous fungal species have been used to produce fermented foods in Asian countries, such as China, Japan, and The Korean Peninsula, for nearly 2,000 years. At present, their fermented products are widely used as food additives and nutraceutical supplements worldwide owing to their production of beneficial secondary metabolites. Heterotrimeric G-protein signaling pathways participate in regulating multiple biological processes in fungi. Previously, we identified three Monascus ruber M7 G-protein α subunits (Mga1–3) and demonstrated that Mga1 can regulate growth, reproduction and some secondary metabolites’ production. Here, we systematically analyzed and compared the roles of mga1–3 by combining single- and double-gene(s) knockouts and their transcriptomic data. First, mga2 and mga3 knock-out mutants and pairwise combinations of mga1–3 deletion strains were generated. Then the changes in growth, development and the main secondary metabolites, Monascus pigments and citrinin, in these mutants were systematically compared with M. ruber M7. Moreover, RNA-Seq analyses of these mutants were performed. All three Gα subunits worked together to regulate biological processes in M. ruber M7, with Mga1 playing a major role, while Mga2 and Mga3 playing supplemental roles. According to the existing literatures which we can find, gene knock-out mutants of the pairwise combination of mga1–3 and their transcriptome analysis are first reported in this study. The current results have clearly demonstrated the functional division of Mga1–3 in M. ruber M7, and could provide a deeper understanding of the effects of different Gα subunits on growth, development and secondary metabolism in other filamentous fungi.https://www.frontiersin.org/article/10.3389/fmicb.2019.01555/fullMonascus ruberG-protein α-subunitdevelopmentsecondary metabolismtranscriptomic analysis
collection DOAJ
language English
format Article
sources DOAJ
author Ming Lei
Jiao Liu
Yang Fang
Yanchun Shao
Li Li
Jae-Hyuk Yu
Jae-Hyuk Yu
Fusheng Chen
spellingShingle Ming Lei
Jiao Liu
Yang Fang
Yanchun Shao
Li Li
Jae-Hyuk Yu
Jae-Hyuk Yu
Fusheng Chen
Effects of Different G-Protein α-Subunits on Growth, Development and Secondary Metabolism of Monascus ruber M7
Frontiers in Microbiology
Monascus ruber
G-protein α-subunit
development
secondary metabolism
transcriptomic analysis
author_facet Ming Lei
Jiao Liu
Yang Fang
Yanchun Shao
Li Li
Jae-Hyuk Yu
Jae-Hyuk Yu
Fusheng Chen
author_sort Ming Lei
title Effects of Different G-Protein α-Subunits on Growth, Development and Secondary Metabolism of Monascus ruber M7
title_short Effects of Different G-Protein α-Subunits on Growth, Development and Secondary Metabolism of Monascus ruber M7
title_full Effects of Different G-Protein α-Subunits on Growth, Development and Secondary Metabolism of Monascus ruber M7
title_fullStr Effects of Different G-Protein α-Subunits on Growth, Development and Secondary Metabolism of Monascus ruber M7
title_full_unstemmed Effects of Different G-Protein α-Subunits on Growth, Development and Secondary Metabolism of Monascus ruber M7
title_sort effects of different g-protein α-subunits on growth, development and secondary metabolism of monascus ruber m7
publisher Frontiers Media S.A.
series Frontiers in Microbiology
issn 1664-302X
publishDate 2019-07-01
description Strains of Monascus filamentous fungal species have been used to produce fermented foods in Asian countries, such as China, Japan, and The Korean Peninsula, for nearly 2,000 years. At present, their fermented products are widely used as food additives and nutraceutical supplements worldwide owing to their production of beneficial secondary metabolites. Heterotrimeric G-protein signaling pathways participate in regulating multiple biological processes in fungi. Previously, we identified three Monascus ruber M7 G-protein α subunits (Mga1–3) and demonstrated that Mga1 can regulate growth, reproduction and some secondary metabolites’ production. Here, we systematically analyzed and compared the roles of mga1–3 by combining single- and double-gene(s) knockouts and their transcriptomic data. First, mga2 and mga3 knock-out mutants and pairwise combinations of mga1–3 deletion strains were generated. Then the changes in growth, development and the main secondary metabolites, Monascus pigments and citrinin, in these mutants were systematically compared with M. ruber M7. Moreover, RNA-Seq analyses of these mutants were performed. All three Gα subunits worked together to regulate biological processes in M. ruber M7, with Mga1 playing a major role, while Mga2 and Mga3 playing supplemental roles. According to the existing literatures which we can find, gene knock-out mutants of the pairwise combination of mga1–3 and their transcriptome analysis are first reported in this study. The current results have clearly demonstrated the functional division of Mga1–3 in M. ruber M7, and could provide a deeper understanding of the effects of different Gα subunits on growth, development and secondary metabolism in other filamentous fungi.
topic Monascus ruber
G-protein α-subunit
development
secondary metabolism
transcriptomic analysis
url https://www.frontiersin.org/article/10.3389/fmicb.2019.01555/full
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