Identification of Regulatory Genes and Metabolic Processes Important for Alginate Biosynthesis in Azotobacter vinelandii by Screening of a Transposon Insertion Mutant Library

Identification of Regulatory Genes and Metabolic Processes Important for Alginate Biosynthesis in Azotobacter vinelandii by Screening of a Transposon Insertion Mutant Library

Azotobacter vinelandii produces the biopolymer alginate, which has a wide range of industrial and pharmaceutical applications. A random transposon insertion mutant library was constructed from A. vinelandii ATCC12518Tc in order to identify genes and pathways affecting alginate biosynthesis, and abou...

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Main Authors: Mali Mærk, Øyvind M. Jakobsen, Håvard Sletta, Geir Klinkenberg, Anne Tøndervik, Trond E. Ellingsen, Svein Valla, Helga Ertesvåg
Format: Article
Language:English
Published: Frontiers Media S.A. 2020-01-01
Series:Frontiers in Bioengineering and Biotechnology
Subjects:
alginate
Azotobacter vinelandii
amrZ
fruA
algB
medium supplements
Online Access:https://www.frontiersin.org/article/10.3389/fbioe.2019.00475/full
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spelling doaj-997ef1fbe3e2441398b06abbe258fd302020-11-25T02:55:46ZengFrontiers Media S.A.Frontiers in Bioengineering and Biotechnology2296-41852020-01-01710.3389/fbioe.2019.00475503262Identification of Regulatory Genes and Metabolic Processes Important for Alginate Biosynthesis in Azotobacter vinelandii by Screening of a Transposon Insertion Mutant LibraryMali Mærk0Øyvind M. Jakobsen1Håvard Sletta2Geir Klinkenberg3Anne Tøndervik4Trond E. Ellingsen5Svein Valla6Helga Ertesvåg7Department of Biotechnology and Food Science, Norwegian University of Science and Technology, Trondheim, NorwaySINTEF Industry, Trondheim, NorwaySINTEF Industry, Trondheim, NorwaySINTEF Industry, Trondheim, NorwaySINTEF Industry, Trondheim, NorwaySINTEF Industry, Trondheim, NorwayDepartment of Biotechnology and Food Science, Norwegian University of Science and Technology, Trondheim, NorwayDepartment of Biotechnology and Food Science, Norwegian University of Science and Technology, Trondheim, NorwayAzotobacter vinelandii produces the biopolymer alginate, which has a wide range of industrial and pharmaceutical applications. A random transposon insertion mutant library was constructed from A. vinelandii ATCC12518Tc in order to identify genes and pathways affecting alginate biosynthesis, and about 4,000 mutant strains were screened for altered alginate production. One mutant, containing a mucA disruption, displayed an elevated alginate production level, and several mutants with decreased or abolished alginate production were identified. The regulatory proteins AlgW and AmrZ seem to be required for alginate production in A. vinelandii, similarly to Pseudomonas aeruginosa. An algB mutation did however not affect alginate yield in A. vinelandii although its P. aeruginosa homolog is needed for full alginate production. Inactivation of the fructose phosphoenolpyruvate phosphotransferase system protein FruA resulted in a mutant that did not produce alginate when cultivated in media containing various carbon sources, indicating that this system could have a role in regulation of alginate biosynthesis. Furthermore, impaired or abolished alginate production was observed for strains with disruptions of genes involved in peptidoglycan biosynthesis/recycling and biosynthesis of purines, isoprenoids, TCA cycle intermediates, and various vitamins, suggesting that sufficient access to some of these compounds is important for alginate production. This hypothesis was verified by showing that addition of thiamine, succinate or a mixture of lysine, methionine and diaminopimelate increases alginate yield in the non-mutagenized strain. These results might be used in development of optimized alginate production media or in genetic engineering of A. vinelandii strains for alginate bioproduction.https://www.frontiersin.org/article/10.3389/fbioe.2019.00475/fullalginateAzotobacter vinelandiiamrZfruAalgBmedium supplements
collection DOAJ
language English
format Article
sources DOAJ
author Mali Mærk
Øyvind M. Jakobsen
Håvard Sletta
Geir Klinkenberg
Anne Tøndervik
Trond E. Ellingsen
Svein Valla
Helga Ertesvåg
spellingShingle Mali Mærk
Øyvind M. Jakobsen
Håvard Sletta
Geir Klinkenberg
Anne Tøndervik
Trond E. Ellingsen
Svein Valla
Helga Ertesvåg
Identification of Regulatory Genes and Metabolic Processes Important for Alginate Biosynthesis in Azotobacter vinelandii by Screening of a Transposon Insertion Mutant Library
Frontiers in Bioengineering and Biotechnology
alginate
Azotobacter vinelandii
amrZ
fruA
algB
medium supplements
author_facet Mali Mærk
Øyvind M. Jakobsen
Håvard Sletta
Geir Klinkenberg
Anne Tøndervik
Trond E. Ellingsen
Svein Valla
Helga Ertesvåg
author_sort Mali Mærk
title Identification of Regulatory Genes and Metabolic Processes Important for Alginate Biosynthesis in Azotobacter vinelandii by Screening of a Transposon Insertion Mutant Library
title_short Identification of Regulatory Genes and Metabolic Processes Important for Alginate Biosynthesis in Azotobacter vinelandii by Screening of a Transposon Insertion Mutant Library
title_full Identification of Regulatory Genes and Metabolic Processes Important for Alginate Biosynthesis in Azotobacter vinelandii by Screening of a Transposon Insertion Mutant Library
title_fullStr Identification of Regulatory Genes and Metabolic Processes Important for Alginate Biosynthesis in Azotobacter vinelandii by Screening of a Transposon Insertion Mutant Library
title_full_unstemmed Identification of Regulatory Genes and Metabolic Processes Important for Alginate Biosynthesis in Azotobacter vinelandii by Screening of a Transposon Insertion Mutant Library
title_sort identification of regulatory genes and metabolic processes important for alginate biosynthesis in azotobacter vinelandii by screening of a transposon insertion mutant library
publisher Frontiers Media S.A.
series Frontiers in Bioengineering and Biotechnology
issn 2296-4185
publishDate 2020-01-01
description Azotobacter vinelandii produces the biopolymer alginate, which has a wide range of industrial and pharmaceutical applications. A random transposon insertion mutant library was constructed from A. vinelandii ATCC12518Tc in order to identify genes and pathways affecting alginate biosynthesis, and about 4,000 mutant strains were screened for altered alginate production. One mutant, containing a mucA disruption, displayed an elevated alginate production level, and several mutants with decreased or abolished alginate production were identified. The regulatory proteins AlgW and AmrZ seem to be required for alginate production in A. vinelandii, similarly to Pseudomonas aeruginosa. An algB mutation did however not affect alginate yield in A. vinelandii although its P. aeruginosa homolog is needed for full alginate production. Inactivation of the fructose phosphoenolpyruvate phosphotransferase system protein FruA resulted in a mutant that did not produce alginate when cultivated in media containing various carbon sources, indicating that this system could have a role in regulation of alginate biosynthesis. Furthermore, impaired or abolished alginate production was observed for strains with disruptions of genes involved in peptidoglycan biosynthesis/recycling and biosynthesis of purines, isoprenoids, TCA cycle intermediates, and various vitamins, suggesting that sufficient access to some of these compounds is important for alginate production. This hypothesis was verified by showing that addition of thiamine, succinate or a mixture of lysine, methionine and diaminopimelate increases alginate yield in the non-mutagenized strain. These results might be used in development of optimized alginate production media or in genetic engineering of A. vinelandii strains for alginate bioproduction.
topic alginate
Azotobacter vinelandii
amrZ
fruA
algB
medium supplements
url https://www.frontiersin.org/article/10.3389/fbioe.2019.00475/full
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