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Metagenome-assembled genome: SRR13685122_bin.22_CONCOCT_v1.1_MAG

Identifiers
BioSample: SAMEA14035925; SRA: ERS11639207
Organism
uncultured Rhodospirillales bacterium
cellular organisms; Bacteria; Pseudomonadati; Pseudomonadota; Alphaproteobacteria; Rhodospirillales; environmental samples
Attributes
collection date2016-01-05
broad-scale environmental contextAlgae
local-scale environmental contextGreen algae
environmental mediumEctosymbionts
geographic locationUSA
investigation typemetagenome-assembled genome
isolation sourcelichen metagenome
project nameReductions in genome size and complexity are a hallmark of obligate symbioses. The mitochondrial genome displays clear examples of these reductions, with the ancestral alpha-proteobacterial genome size and gene number having been reduced by orders of magnitude in most descendent modern mitochondrial genomes. Here, we examine patterns of mitochondrial evolution specifically looking at intron size, number, and position across 58 species from 21 genera of lichenized Ascomycete fungi, representing a broad range of fungal diversity and niches. Our results show that the cox1 gene always contained the highest number of introns out of all the mitochondrial protein-coding genes, that high intron sequence similarity can be maintained between different genera, and that lichens have undergone at least two instances of complete, genome-wide intron loss consistent with evidence for genome streamlining via loss of parasitic, noncoding DNA, in Phlyctis boliviensis and Graphis lineola. Notably, however, lichenized fungi have not only undergone intron loss but in some instances have expanded considerably in size due to intron proliferation (e.g., Alectoria fallacina and Parmotrema neotropicum), even between closely related sister species (e.g., Cladonia). These results shed light on the highly dynamic mitochondrial evolution that is occurring in lichens and suggest that these obligate symbiotic organisms are in some cases undergoing recent, broad-scale genome streamlining via loss of protein-coding genes as well as noncoding, parasitic DNA elements.
sample nameSRR13685122_bin.22_CONCOCT_v1.1_MAG
ENA-CHECKLISTERC000047
ENA-FIRST-PUBLIC2023-01-03
ENA-LAST-UPDATE2023-01-03
External IdSAMEA14035925
INSDC center aliasEBI
INSDC center nameEuropean Bioinformatics Institute
INSDC first public2023-01-03T00:32:00Z
INSDC last update2023-01-03T00:32:00Z
INSDC statuspublic
Submitter IdSRR13685122_bin.22_CONCOCT_v1.1_MAG
assembly qualityMany fragments with little to no review of assembly other than reporting of standard assembly statistics
assembly softwaremetaspades_v3.13.0
binning parametersDefault
binning softwareCONCOCT v1.1
broker nameEMG broker account, EMBL-EBI
completeness score89.86
completeness softwareCheckM
contamination score1.26
geographic location (latitude)not provided
geographic location (longitude)not provided
metagenomic sourcelichen metagenome
sample derived fromSAMN17834534
scientific_nameuncultured Rhodospirillales bacterium
sequencing methodNextSeq 550
taxonomic identity markermulti-marker approach
Description

This sample represents a Third Party Annotation (TPA) Metagenome-Assembled Genome (MAG) assembled from the metagenomic run SRR13685122 of study SRP305791.

BioProject
PRJEB51077 Large-scale analysis of novel cellular microbes from the lichen biome
Retrieve all samples from this project

Submission
EBI; 2023-01-04
Accession:
SAMEA14035925
ID:
32555524

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