Characterization of cellulolytic microbial consortium enriched on Napier grass using metagenomic approaches

Energy grass is a promising substrate for production of biogas by anaerobic digestion. However, the conversion efficiency is limited by the enzymatically recalcitrant nature of cellulosic wastes. In this study, an active, structurally stable mesophilic lignocellulolytic degrading microbial consortiu...

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Published inJournal of bioscience and bioengineering Vol. 125; no. 4; pp. 439 - 447
Main Authors Kanokratana, Pattanop, Wongwilaiwalin, Sarunyou, Mhuantong, Wuttichai, Tangphatsornruang, Sithichoke, Eurwilaichitr, Lily, Champreda, Verawat
Format Journal Article
LanguageEnglish
Published Japan Elsevier B.V 01.04.2018
Subjects
aerobes
anaerobic conditions
anaerobic digestion
Anaerobiosis
bacteria
Bacteroidetes - genetics
Bacteroidetes - isolation & purification
Bacteroidetes - metabolism
beta-glucanase
bioenergy industry
Biofuels - microbiology
biogas
Carbohydrate-active enzymes
cellulose
Cellulose - metabolism
cellulosic wastes
Cenchrus purpureus
Comamonas
composts
Dysgonomonas
energy
enzyme activity
esterases
Firmicutes
Firmicutes - genetics
Firmicutes - isolation & purification
Firmicutes - metabolism
forests
genes
grasses
hemicellulose
High-throughput sequencing
Lignin - metabolism
lignocellulases
lignocellulose
Lignocellulose degradation
mammals
Metagenome
Metagenomics
microbial communities
Microbial Consortia - genetics
Microbial consortium
Napier grass
Pennisetum - metabolism
Pennisetum - microbiology
Proteobacteria - genetics
Proteobacteria - isolation & purification
Proteobacteria - metabolism
ribosomal RNA
RNA, Ribosomal, 16S - genetics
sequence analysis
soil biota
xylanases
Lignocellulose degradation
Microbial consortium
Napier grass
High-throughput sequencing
Carbohydrate-active enzymes
Online AccessGet full text

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Abstract Energy grass is a promising substrate for production of biogas by anaerobic digestion. However, the conversion efficiency is limited by the enzymatically recalcitrant nature of cellulosic wastes. In this study, an active, structurally stable mesophilic lignocellulolytic degrading microbial consortium (Np-LMC) was constructed from forest compost soil microbiota by successive subcultivation on Napier grass under facultative anoxic conditions. According to tagged 16S rRNA gene amplicon sequencing, increasing abundance of facultative Proteobacteria was found in the middle of batch cycle which was then subsequently replaced by the cellulose degraders Firmicutes and Bacteroidetes along with decreasing CMCase, xylanase, and β-glucanase activity profiles in the supernatant after 5 days of incubation. Anaerobic/facultative bacteria Dysgonomonas and Sedimentibacter and aerobic bacteria Comamonas were the major genera found in Np-LMC. The consortium was active on degradation of the native and delignified grass. Direct shotgun sequencing of the consortium metagenome revealed relatively high abundance of genes encoding for various lignocellulose degrading enzymes in 23 glycosyl hydrolase (GH) families compared to previously reported cellulolytic microbial communities in mammalian digestive tracts. Enzymes attacking cellulose and hemicellulose were dominated by GH2, 3, 5, 9, 10, 26, 28 and 43 in addition to a variety of carbohydrate esterases (CE) and auxiliary activities (AA), reflecting adaptation of the enzyme systems to the native herbaceous substrate. The consortium identified here represents the microcosm specifically bred on energy grass, with potential for enhancing degradation of fibrous substrates in bioenergy industry.
AbstractList Energy grass is a promising substrate for production of biogas by anaerobic digestion. However, the conversion efficiency is limited by the enzymatically recalcitrant nature of cellulosic wastes. In this study, an active, structurally stable mesophilic lignocellulolytic degrading microbial consortium (Np-LMC) was constructed from forest compost soil microbiota by successive subcultivation on Napier grass under facultative anoxic conditions. According to tagged 16S rRNA gene amplicon sequencing, increasing abundance of facultative Proteobacteria was found in the middle of batch cycle which was then subsequently replaced by the cellulose degraders Firmicutes and Bacteroidetes along with decreasing CMCase, xylanase, and β-glucanase activity profiles in the supernatant after 5 days of incubation. Anaerobic/facultative bacteria Dysgonomonas and Sedimentibacter and aerobic bacteria Comamonas were the major genera found in Np-LMC. The consortium was active on degradation of the native and delignified grass. Direct shotgun sequencing of the consortium metagenome revealed relatively high abundance of genes encoding for various lignocellulose degrading enzymes in 23 glycosyl hydrolase (GH) families compared to previously reported cellulolytic microbial communities in mammalian digestive tracts. Enzymes attacking cellulose and hemicellulose were dominated by GH2, 3, 5, 9, 10, 26, 28 and 43 in addition to a variety of carbohydrate esterases (CE) and auxiliary activities (AA), reflecting adaptation of the enzyme systems to the native herbaceous substrate. The consortium identified here represents the microcosm specifically bred on energy grass, with potential for enhancing degradation of fibrous substrates in bioenergy industry.
Energy grass is a promising substrate for production of biogas by anaerobic digestion. However, the conversion efficiency is limited by the enzymatically recalcitrant nature of cellulosic wastes. In this study, an active, structurally stable mesophilic lignocellulolytic degrading microbial consortium (Np-LMC) was constructed from forest compost soil microbiota by successive subcultivation on Napier grass under facultative anoxic conditions. According to tagged 16S rRNA gene amplicon sequencing, increasing abundance of facultative Proteobacteria was found in the middle of batch cycle which was then subsequently replaced by the cellulose degraders Firmicutes and Bacteroidetes along with decreasing CMCase, xylanase, and β-glucanase activity profiles in the supernatant after 5 days of incubation. Anaerobic/facultative bacteria Dysgonomonas and Sedimentibacter and aerobic bacteria Comamonas were the major genera found in Np-LMC. The consortium was active on degradation of the native and delignified grass. Direct shotgun sequencing of the consortium metagenome revealed relatively high abundance of genes encoding for various lignocellulose degrading enzymes in 23 glycosyl hydrolase (GH) families compared to previously reported cellulolytic microbial communities in mammalian digestive tracts. Enzymes attacking cellulose and hemicellulose were dominated by GH2, 3, 5, 9, 10, 26, 28 and 43 in addition to a variety of carbohydrate esterases (CE) and auxiliary activities (AA), reflecting adaptation of the enzyme systems to the native herbaceous substrate. The consortium identified here represents the microcosm specifically bred on energy grass, with potential for enhancing degradation of fibrous substrates in bioenergy industry.Energy grass is a promising substrate for production of biogas by anaerobic digestion. However, the conversion efficiency is limited by the enzymatically recalcitrant nature of cellulosic wastes. In this study, an active, structurally stable mesophilic lignocellulolytic degrading microbial consortium (Np-LMC) was constructed from forest compost soil microbiota by successive subcultivation on Napier grass under facultative anoxic conditions. According to tagged 16S rRNA gene amplicon sequencing, increasing abundance of facultative Proteobacteria was found in the middle of batch cycle which was then subsequently replaced by the cellulose degraders Firmicutes and Bacteroidetes along with decreasing CMCase, xylanase, and β-glucanase activity profiles in the supernatant after 5 days of incubation. Anaerobic/facultative bacteria Dysgonomonas and Sedimentibacter and aerobic bacteria Comamonas were the major genera found in Np-LMC. The consortium was active on degradation of the native and delignified grass. Direct shotgun sequencing of the consortium metagenome revealed relatively high abundance of genes encoding for various lignocellulose degrading enzymes in 23 glycosyl hydrolase (GH) families compared to previously reported cellulolytic microbial communities in mammalian digestive tracts. Enzymes attacking cellulose and hemicellulose were dominated by GH2, 3, 5, 9, 10, 26, 28 and 43 in addition to a variety of carbohydrate esterases (CE) and auxiliary activities (AA), reflecting adaptation of the enzyme systems to the native herbaceous substrate. The consortium identified here represents the microcosm specifically bred on energy grass, with potential for enhancing degradation of fibrous substrates in bioenergy industry.
Author Champreda, Verawat
Eurwilaichitr, Lily
Kanokratana, Pattanop
Mhuantong, Wuttichai
Wongwilaiwalin, Sarunyou
Tangphatsornruang, Sithichoke
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  givenname: Sarunyou
  surname: Wongwilaiwalin
  fullname: Wongwilaiwalin, Sarunyou
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  givenname: Wuttichai
  orcidid: 0000-0002-3355-0071
  surname: Mhuantong
  fullname: Mhuantong, Wuttichai
  organization: Enzyme Technology Laboratory, National Center for Genetic Engineering and Biotechnology, 113 Thailand Science Park, Pahonyothin Road, Klong Luang, Pathum Thani 12120, Thailand
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  orcidid: 0000-0003-2673-0012
  surname: Tangphatsornruang
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  organization: Genomic Research Laboratory, National Center for Genetic Engineering and Biotechnology, 113 Thailand Science Park, Pahonyothin Road, Klong Luang, Pathum Thani 12120, Thailand
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  givenname: Lily
  surname: Eurwilaichitr
  fullname: Eurwilaichitr, Lily
  organization: Enzyme Technology Laboratory, National Center for Genetic Engineering and Biotechnology, 113 Thailand Science Park, Pahonyothin Road, Klong Luang, Pathum Thani 12120, Thailand
– sequence: 6
  givenname: Verawat
  surname: Champreda
  fullname: Champreda, Verawat
  organization: Enzyme Technology Laboratory, National Center for Genetic Engineering and Biotechnology, 113 Thailand Science Park, Pahonyothin Road, Klong Luang, Pathum Thani 12120, Thailand
BackLink https://www.ncbi.nlm.nih.gov/pubmed/29169786$$D View this record in MEDLINE/PubMed
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Issue 4
Keywords Lignocellulose degradation
Microbial consortium
Napier grass
High-throughput sequencing
Carbohydrate-active enzymes
Language English
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Copyright © 2017 The Society for Biotechnology, Japan. Published by Elsevier B.V. All rights reserved.
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Snippet Energy grass is a promising substrate for production of biogas by anaerobic digestion. However, the conversion efficiency is limited by the enzymatically...
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SubjectTerms aerobes
anaerobic conditions
anaerobic digestion
Anaerobiosis
bacteria
Bacteroidetes - genetics
Bacteroidetes - isolation & purification
Bacteroidetes - metabolism
beta-glucanase
bioenergy industry
Biofuels - microbiology
biogas
Carbohydrate-active enzymes
cellulose
Cellulose - metabolism
cellulosic wastes
Cenchrus purpureus
Comamonas
composts
Dysgonomonas
energy
enzyme activity
esterases
Firmicutes
Firmicutes - genetics
Firmicutes - isolation & purification
Firmicutes - metabolism
forests
genes
grasses
hemicellulose
High-throughput sequencing
Lignin - metabolism
lignocellulases
lignocellulose
Lignocellulose degradation
mammals
Metagenome
Metagenomics
microbial communities
Microbial Consortia - genetics
Microbial consortium
Napier grass
Pennisetum - metabolism
Pennisetum - microbiology
Proteobacteria - genetics
Proteobacteria - isolation & purification
Proteobacteria - metabolism
ribosomal RNA
RNA, Ribosomal, 16S - genetics
sequence analysis
soil biota
xylanases
Title Characterization of cellulolytic microbial consortium enriched on Napier grass using metagenomic approaches
URI https://dx.doi.org/10.1016/j.jbiosc.2017.10.014
https://www.ncbi.nlm.nih.gov/pubmed/29169786
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https://www.proquest.com/docview/2000580483
Volume 125
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