Kerry A. Naish scite author profile

Males and females often differ in their fitness optima for shared traits that have a shared genetic basis, leading to sexual conflict. Morphologically differentiated sex chromosomes can resolve this conflict and protect sexually antagonistic variation, but they accumulate deleterious mutations. However, how sexual conflict is resolved in species that lack differentiated sex chromosomes is largely unknown. Here we present a chromosome-anchored genome assembly for rainbow trout (Oncorhynchus mykiss) and characterize a 55-Mb double-inversion supergene that mediates sex-specific migratory tendency through sex-dependent dominance reversal, an alternative mechanism for resolving sexual conflict. The double inversion contains key photosensory, circadian rhythm, adiposity and sex-related genes and displays a latitudinal frequency cline, indicating environmentally dependent selection. Our results show sex-dependent dominance reversal across a large autosomal supergene, a mechanism for sexual conflict resolution capable of protecting sexually antagonistic variation while avoiding the homozygous lethality and deleterious mutations associated with typical heteromorphic sex chromosomes. Methodology ReplicatesDescribe the experimental replicates, specifying number, type and replicate agreement. Sequencing depthDescribe the sequencing depth for each experiment, providing the total number of reads, uniquely mapped reads, length of reads and whether they were paired-or single-end. AntibodiesDescribe the antibodies used for the ChIP-seq experiments; as applicable, provide supplier name, catalog number, clone name, and lot number. Peak calling parametersSpecify the command line program and parameters used for read mapping and peak calling, including the ChIP, control and index files used. Data qualityDescribe the methods used to ensure data quality in full detail, including how many peaks are at FDR 5% and above 5-fold enrichment. SoftwareDescribe the software used to collect and analyze the ChIP-seq data. For custom code that has been deposited into a community repository, provide accession details. Flow Cytometry PlotsConfirm that:The axis labels state the marker and fluorochrome used (e.g. CD4-FITC).The axis scales are clearly visible. Include numbers along axes only for bottom left plot of group (a 'group' is an analysis of identical markers).All plots are contour plots with outliers or pseudocolor plots.A numerical value for number of cells or percentage (with statistics) is provided. Methodology Sample preparationDescribe the sample preparation, detailing the biological source of the cells and any tissue processing steps used. InstrumentIdentify the instrument used for data collection, specifying make and model number. SoftwareDescribe the software used to collect and analyze the flow cytometry data. For custom code that has been deposited into a community repository, provide accession details.Cell population abundance Describe the abundance of the relevant cell populations within post-sort fractions, providing details on the...

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Comparative Genome Analysis of the Primary Sex-Determining Locus in Salmonid Fishes

Woram

Gharbi²,

Sakamoto³

et al. 2003

Genome Res.

238

222

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We compared the Y-chromosome linkage maps for four salmonid species (Arctic charr, Salvelinus alpinus; Atlantic salmon, Salmo salar; brown trout, Salmo trutta; and rainbow trout, Oncorhynchus mykiss) and a putative Y-linked marker from lake trout (Salvelinus namaycush). These species represent the three major genera within the subfamily Salmoninae of the Salmonidae. The data clearly demonstrate that different Y-chromosomes have evolved in each of the species. Arrangements of markers proximal to the sex-determining locus are preserved on homologous, but different, autosomal linkage groups across the four species studied in detail. This indicates that a small region of DNA has been involved in the rearrangement of the sex-determining region. Placement of the sex-determining region appears telomeric in brown trout, Atlantic salmon, and Arctic charr, whereas an intercalary location for SEX may exist in rainbow trout. Three hypotheses are proposed to account for the relocation: translocation of a small chromosome arm; transposition of the sex-determining gene; or differential activation of a primary sex-determining gene region among the species

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Kerry A. Naish

An Evaluation of the Effects of Conservation and Fishery Enhancement Hatcheries on Wild Populations of Salmon

Single‐nucleotide polymorphism (SNP) discovery and applications of SNP genotyping in nonmodel organisms

Sex-dependent dominance maintains migration supergene in rainbow trout

Comparative Genome Analysis of the Primary Sex-Determining Locus in Salmonid Fishes

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