Metagenome-assembled genome: SRR3546782_bin.1_CONC... - BioSample

Metagenome-assembled genome: SRR3546782_bin.1_CONCOCT_v1.1_MAG

Identifiers: BioSample: SAMEA14085698; SRA: ERS11688829

Organism: Proteus mirabilis
cellular organisms; Bacteria; Pseudomonadota; Gammaproteobacteria; Enterobacterales; Morganellaceae; Proteus

Attributes

collection date	2012-04-01
broad-scale environmental context	Host-associated
local-scale environmental context	Human
environmental medium	Digestive system
geographic location	USA
investigation type	metagenome-assembled genome
isolation source	human gut metagenome
project name	Bacteria that persist in hospitals can contribute to the establishment of the microbiome in newborns and the spread of hospital-acquired diseases. Yet we know little about microbial communities in hospitals, or about the extent to which persistent vs. recently immigrated bacterial strains establish in the gastrointestinal tracts of hospitalized individuals.</p><p>In combination with BioProject PRJNA273761 (10 infants / 55 samples) we analyzed strain-resolved genomes obtained from a total of 202 samples collected over a three-year period from 21 infants hospitalized in the same intensive care unit.</p><p>Strains were rarely shared, consistent with prior analysis of a subset of these data. Enterococcus faecalis and Staphylococcus epidermidis, common gut colonists, exhibit diversity comparable to that of NCBI reference strains, suggesting no recent common ancestor for all populations in this hospital setting. Thus, we infer multiple introduction events for these species. Despite the rarity of shared strains, strains of five species exhibiting a degree of sequence variation consistent with in situ diversification were identified in different infants hospitalized three years apart. Three were also detected in multiple infants in the same year, suggesting that these strains are unusually widely dispersed and persistent in the hospital environment. Persistent strains were not significantly different from non-persistent strains with regards to pathogenicity potential including antibiotic resistance. Notably, non-identical siblings had multiple abundant strains in common, even 30 days after birth and antibiotic administration, suggesting overlapping strain sources and/or genetic selection. Our approach can be used in order to study microbial dynamics in hospitals and provides an important step towards directing health-promoting colonization in hospitalized individuals.
sample name	SRR3546782_bin.1_CONCOCT_v1.1_MAG
ENA-CHECKLIST	ERC000047
ENA-FIRST-PUBLIC	2023-01-03
ENA-LAST-UPDATE	2023-01-03
External Id	SAMEA14085698
INSDC center alias	EBI
INSDC center name	European Bioinformatics Institute
INSDC first public	2023-01-03T00:33:34Z
INSDC last update	2023-01-03T00:33:34Z
INSDC status	public
Submitter Id	SRR3546782_bin.1_CONCOCT_v1.1_MAG
assembly quality	Many fragments with little to no review of assembly other than reporting of standard assembly statistics
assembly software	metaspadesv3.11.1
binning parameters	Default
binning software	CONCOCT v1.1
broker name	EMG broker account, EMBL-EBI
completeness score	96.88
completeness software	CheckM
contamination score	0.14
geographic location (latitude)	40.4308
geographic location (longitude)	-79.9598
metagenomic source	human gut metagenome
sample derived from	SAMN04161035
scientific_name	Proteus mirabilis
sequencing method	Illumina HiSeq 2000
taxonomic identity marker	multi-marker approach

Description: This sample represents a Third Party Annotation (TPA) Metagenome-Assembled Genome (MAG) assembled from the metagenomic run SRR3546782 of study SRP074153.

BioProject: PRJEB51075 Large-scale analysis of novel cellular microbes from the human gut biome
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Submission: EBI; 2023-01-04

Accession:: SAMEA14085698
ID:: 32562324

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Metagenome-assembled genome: SRR3546782_bin.1_CONCOCT_v1.1_MAG

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