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The pig X and Y Chromosomes: structure, sequence, and evolution

    • 1Department of Pathology, University of Cambridge, Cambridge CB2 1QP, United Kingdom;
    • 2Wellcome Trust Sanger Institute, Hinxton, Cambridge CB10 1SA, United Kingdom;
    • 3European Molecular Biology Laboratory, European Bioinformatics Institute, Hinxton, Cambridge CB10 1SD, United Kingdom;
    • 4Bill Lyons Informatics Centre, UCL Cancer Institute, University College London, London WC1E 6BT, United Kingdom
    • 5Joint first authors
    • Present addresses: 6School of Clinical Medicine, University of Cambridge, Cambridge CB2 0SP, UK; 7Sheffield Diagnostic Genetics Service, Sheffield Children's NHS Foundation Trust, Western Bank, Sheffield S10 2TH, UK; 8School of Biosciences, University of Kent, Canterbury CT2 7NJ, UK
Published November 11, 2015. https://doi.org/10.1101/gr.188839.114
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cover of Genome Research Vol 36 Issue 7
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Abstract

We have generated an improved assembly and gene annotation of the pig X Chromosome, and a first draft assembly of the pig Y Chromosome, by sequencing BAC and fosmid clones from Duroc animals and incorporating information from optical mapping and fiber-FISH. The X Chromosome carries 1033 annotated genes, 690 of which are protein coding. Gene order closely matches that found in primates (including humans) and carnivores (including cats and dogs), which is inferred to be ancestral. Nevertheless, several protein-coding genes present on the human X Chromosome were absent from the pig, and 38 pig-specific X-chromosomal genes were annotated, 22 of which were olfactory receptors. The pig Y-specific Chromosome sequence generated here comprises 30 megabases (Mb). A 15-Mb subset of this sequence was assembled, revealing two clusters of male-specific low copy number genes, separated by an ampliconic region including the HSFY gene family, which together make up most of the short arm. Both clusters contain palindromes with high sequence identity, presumably maintained by gene conversion. Many of the ancestral X-related genes previously reported in at least one mammalian Y Chromosome are represented either as active genes or partial sequences. This sequencing project has allowed us to identify genes—both single copy and amplified—on the pig Y Chromosome, to compare the pig X and Y Chromosomes for homologous sequences, and thereby to reveal mechanisms underlying pig X and Y Chromosome evolution.

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