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Nematode HiC
To compare chromosome structures of various nematode species using High-throughput chromosome conformation capture (HiC). -
50 Helminth Genomes Initiative
This data is part of a pre-publication release. For information on the proper use of pre-publication data shared by the Wellcome Trust Sanger Institute (including details of any... -
Duplications and positive selection drive the evolution of parasitism associa...
Gene duplication is one of the major mechanisms that play a role in the evolution of phenotypic complexity and in the generation of novel gene functions. By comparing parasitic... -
De novo genome assembly of S. papillosus
Current genome of S. papillosus was published by Hunt, Tsai et al. in 2016. This genome contains 4353 un-assembled scaffolds with N50 of 86kb. The goal of this project is to... -
Gain and loss of small RNA classes - characterization of small RNAs in the pa...
The nematode family Strongyloididae is of particular interest because it contains important parasites of medical and veterinary relevance. In addition, species of this family... -
Pristionchus borbonicus Transcriptome or Gene expression
Transcriptome sequencing of individual specimen of fig associated Pristionchus borbonicus specimen -
Strongyloides_ratti_genome_sequencing
Strongyloides ratti is a common gastro-intestinal parasite of the rat. The adult parasites are female only, about 2mm long and live in the mucosa of the small intestine. These... -
Strongyloides ratti isolate:ED321 Raw sequence reads
Analysis of chromosome amplification in Strongyloidae -
Population genetics of S. papillosus
S. papillosus, have a different karyotype compare with its sister species S. ratti. The X chromosome is fused with one of the autosomes, resulting in a pair of large chromosomes...