Assembly of hundreds of novel bacterial genomes from the chicken caecum

Chickens are a highly important source of protein for a large proportion of the human population. The caecal microbiota plays a crucial role in chicken nutrition through the production of short-chain fatty acids, nitrogen recycling, and amino acid production. In this study, we sequence DNA from caec...

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Veröffentlicht in:	Genome Biology 2020-02, Vol.21 (1), p.34-34, Article 34
Hauptverfasser:	Glendinning, Laura, Stewart, Robert D, Pallen, Mark J, Watson, Kellie A, Watson, Mick
Format:	Artikel
Sprache:	eng
Schlagworte:	Acid production Amino acid sequence Amino acids Animals Bacterial genetics Birds Caeca carbohydrates cecum Cecum - microbiology Chicken chickens Chickens - microbiology Diet DNA Enzymes European Union Fatty acids fish meal Future predictions Gastrointestinal Microbiome genome Genome, Bacterial Genomes Genomics human population MAG Metagenome Microbial ecology microbiome Microbiomes Microbiota Microbiota (Symbiotic organisms) microorganisms nitrogen Novels Nucleotide sequence Nutrition Nutrition research Poultry Protein sources Studies Taxonomy Vegetables
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description	Chickens are a highly important source of protein for a large proportion of the human population. The caecal microbiota plays a crucial role in chicken nutrition through the production of short-chain fatty acids, nitrogen recycling, and amino acid production. In this study, we sequence DNA from caecal content samples taken from 24 chickens belonging to either a fast or a slower growing breed consuming either a vegetable-only diet or a diet containing fish meal. We utilise 1.6 T of Illumina data to construct 469 draft metagenome-assembled bacterial genomes, including 460 novel strains, 283 novel species, and 42 novel genera. We compare our genomes to data from 9 European Union countries and show that these genomes are abundant within European chicken flocks. We also compare the abundance of our genomes, and the carbohydrate active enzymes they produce, between our chicken groups and demonstrate that there are both breed- and diet-specific microbiomes, as well as an overlapping core microbiome. This data will form the basis for future studies examining the composition and function of the chicken caecal microbiota.
doi_str_mv	10.1186/s13059-020-1947-1
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The caecal microbiota plays a crucial role in chicken nutrition through the production of short-chain fatty acids, nitrogen recycling, and amino acid production. In this study, we sequence DNA from caecal content samples taken from 24 chickens belonging to either a fast or a slower growing breed consuming either a vegetable-only diet or a diet containing fish meal. We utilise 1.6 T of Illumina data to construct 469 draft metagenome-assembled bacterial genomes, including 460 novel strains, 283 novel species, and 42 novel genera. We compare our genomes to data from 9 European Union countries and show that these genomes are abundant within European chicken flocks. We also compare the abundance of our genomes, and the carbohydrate active enzymes they produce, between our chicken groups and demonstrate that there are both breed- and diet-specific microbiomes, as well as an overlapping core microbiome. 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subjects	Acid production Amino acid sequence Amino acids Animals Bacterial genetics Birds Caeca carbohydrates cecum Cecum - microbiology Chicken chickens Chickens - microbiology Diet DNA Enzymes European Union Fatty acids fish meal Future predictions Gastrointestinal Microbiome genome Genome, Bacterial Genomes Genomics human population MAG Metagenome Microbial ecology microbiome Microbiomes Microbiota Microbiota (Symbiotic organisms) microorganisms nitrogen Novels Nucleotide sequence Nutrition Nutrition research Poultry Protein sources Studies Taxonomy Vegetables
title	Assembly of hundreds of novel bacterial genomes from the chicken caecum
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