ENAapplication/xmlftp.sra.ebi.ac.uk/vol1/fastq/SRR393/008/SRR3931948/SRR3931948_1.fastq.gzftp.sra.ebi.ac.uk/vol1/fastq/SRR393/007/SRR3931947/SRR3931947_1.fastq.gzftp.sra.ebi.ac.uk/vol1/fastq/SRR393/006/SRR3931946/SRR3931946_1.fastq.gzftp.sra.ebi.ac.uk/vol1/fastq/SRR393/005/SRR3931945/SRR3931945_1.fastq.gzftp.sra.ebi.ac.uk/vol1/fastq/SRR393/008/SRR3931948/SRR3931948_2.fastq.gzftp.sra.ebi.ac.uk/vol1/fastq/SRR393/007/SRR3931947/SRR3931947_2.fastq.gzftp.sra.ebi.ac.uk/vol1/fastq/SRR393/005/SRR3931945/SRR3931945_2.fastq.gzftp.sra.ebi.ac.uk/vol1/fastq/SRR393/006/SRR3931946/SRR3931946_2.fastq.gzftp.ebi.ac.uk/pub/databases/ena/wgs/public/lb/LBCW01.fasta.gzftp.ebi.ac.uk/pub/databases/ena/wgs/public/lb/LBCX01.fasta.gzftp.ebi.ac.uk/pub/databases/ena/wgs/public/lb/LBCZ01.fasta.gzftp.ebi.ac.uk/pub/databases/ena/wgs/public/lb/LBCY01.fasta.gzftp.ebi.ac.uk/pub/databases/ena/wgs/public/lb/LBCW01.dat.gzftp.ebi.ac.uk/pub/databases/ena/wgs/public/lb/LBCW01.master.datftp://ftp.ebi.ac.uk/pub/databases/ena/wgs/public/lb/LBCW01.dat.gzftp://ftp.ebi.ac.uk/pub/databases/ena/wgs/public/lb/LBCZ01.dat.gzftp.ebi.ac.uk/pub/databases/ena/wgs/public/lb/LBCZ01.dat.gzftp.ebi.ac.uk/pub/databases/ena/wgs/public/lb/LBCY01.master.datftp://ftp.ebi.ac.uk/pub/databases/ena/wgs/public/lb/LBCX01.dat.gzftp.ebi.ac.uk/pub/databases/ena/wgs/public/lb/LBCX01.master.datftp.ebi.ac.uk/pub/databases/ena/wgs/public/lb/LBCZ01.master.datftp.ebi.ac.uk/pub/databases/ena/wgs/public/lb/LBCY01.dat.gzftp.ebi.ac.uk/pub/databases/ena/wgs/public/lb/LBCX01.dat.gzftp://ftp.ebi.ac.uk/pub/databases/ena/wgs/public/lb/LBCY01.dat.gzprimaryOK2000000GenomicsUniversity of British Columbiahttps://www.ebi.ac.uk/ena/browser/view/PRJNA278755BacteroidalesBarbulanympha is a unicellular eukaryotic (protist) symbiont that digests lignocellulose in the hindgut of the wood-eating cockroach, Cryptocercus punctulatus. In addition to being symbiotic with its insect host, Barbulanympha is itself host to thousands of Bacteroidales bacterial symbionts attached to its cell surface. Single cells of Barbulanympha were isolated and genomic sequences of the ectosymbionts were obtained to understand the evolution of ectosymbiosis, especially in comparison to endosymbiosis. The ectosymbiont genome was also used to investigate the role of nitrogen in driving the symbiosis with Barbulanympha and C. punctulatus.ENANutritional, behavioral response to food, Nutrient Intake, feeding from vascular tissue of another organism, taking of blood meal, Nutrient Intakes, Macronutrient Intake, Macronutrient Intakes, feeding from plant phloem, Genomes, injection of substance into other organism during feeding on blood of other organism, feeding from phloem of other organism, Dietary, Food Intake, Ingestion, Micronutrient Intake, Feed Intakes, posterior intestine, Feed Intake., feeding on blood of other organism, Intake, feeding from tissue of other organism, feeding behaviour, feeding on or from other organism, hindgut, Feed, Food, hematophagy, feeding from xylem of other organism, Nutritional Intakes, large bowel, feeding on plant sap, eating, Dietary Intakes, Dietary Intake, Micronutrient, Nutritional Intake, metenteron, behavioural response to food, Woods, Nutrient, Micronutrient Intakes, Macronutrient0.00.00.00.00.00falseBacteroidalesBarbulanympha ectosymbiont genomes from the hindgut of the wood-eating cockroach Cryptocercus punctulatus2022-07-192015-10-01PRJNA278755171549