Sex chromosome evolution in parasitic nematodes of humans

被引:0
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作者
Jeremy M. Foster
Alexandra Grote
John Mattick
Alan Tracey
Yu-Chih Tsai
Matthew Chung
James A. Cotton
Tyson A. Clark
Adam Geber
Nancy Holroyd
Jonas Korlach
Yichao Li
Silvia Libro
Sara Lustigman
Michelle L. Michalski
Michael Paulini
Matthew B. Rogers
Laura Teigen
Alan Twaddle
Lonnie Welch
Matthew Berriman
Julie C. Dunning Hotopp
Elodie Ghedin
机构
[1] New England Biolabs,Division of Protein Expression & Modification
[2] New York University,Department of Biology, Center for Genomics and Systems Biology
[3] University of Maryland School of Medicine,Institute for Genome Science
[4] Wellcome Sanger Institute,School of Electrical Engineering and Computer Science
[5] Pacific Biosciences,Laboratory of Molecular Parasitology, Lindsley F. Kimball Research Institute
[6] Ohio University,Department of Biology and Microbiology
[7] New York Blood Center,European Molecular Biology Laboratory
[8] University of Wisconsin Oshkosh,Department of Surgery
[9] European Bioinformatics Institute,Department of Microbiology and Immunology
[10] UPMC Children’s Hospital of Pittsburgh,Greenebaum Cancer Center
[11] University of Maryland School of Medicine,Department of Epidemiology, School of Global Public Health
[12] University of Maryland School of Medicine,undefined
[13] New York University,undefined
来源
Nature Communications | / 11卷
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摘要
Sex determination mechanisms often differ even between related species yet the evolution of sex chromosomes remains poorly understood in all but a few model organisms. Some nematodes such as Caenorhabditis elegans have an XO sex determination system while others, such as the filarial parasite Brugia malayi, have an XY mechanism. We present a complete B. malayi genome assembly and define Nigon elements shared with C. elegans, which we then map to the genomes of other filarial species and more distantly related nematodes. We find a remarkable plasticity in sex chromosome evolution with several distinct cases of neo-X and neo-Y formation, X-added regions, and conversion of autosomes to sex chromosomes from which we propose a model of chromosome evolution across different nematode clades. The phylum Nematoda offers a new and innovative system for gaining a deeper understanding of sex chromosome evolution.
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