PT - JOURNAL ARTICLE AU - Aline Muyle AU - Jos Käfer AU - Niklaus Zemp AU - Sylvain Mousset AU - Franck Picard AU - Gabriel AB Marais TI - SEX-DETector: a probabilistic approach to uncover sex chromosomes in non-model organisms AID - 10.1101/023358 DP - 2016 Jan 01 TA - bioRxiv PG - 023358 4099 - http://biorxiv.org/content/early/2016/04/05/023358.short 4100 - http://biorxiv.org/content/early/2016/04/05/023358.full AB - Data deposition: During the review process, the SEX-DETector galaxy workflow and associated test datasets are made available on the public galaxy.prabi.fr server. The data as well as the tool interface are visible to anonymous users, but to use them, you should register for an account (“user Register”), and import the data library “SEX-DETector” (“Shared Data Data Libraries”) into your history. More instructions can be found in the “readme” file in this library. The user manual for SEX-DETector is available here: https://lbbe.univ-lyon1.fr/Download-5251.html?lang=en.Paper submitted as a Genome Resource.We propose a probabilistic framework to infer autosomal and sex-linked genes from RNA-seq data of a cross for any sex chromosome type (XY, ZW, UV). Sex chromosomes (especially the nonrecombining and repeat-dense Y, W, U and V) are notoriously difficult to sequence. Strategies have been developed to obtain partially assembled sex chromosome sequences. However, most of them remain difficult to apply to numerous non-model organisms, either because they require a reference genome, or because they are designed for evolutionarily old systems. Sequencing a cross (parents and progeny) by RNA-seq to study the segregation of alleles and infer sex-linked genes is a cost-efficient strategy, which also provides expression level estimates. However, the lack of a proper statistical framework has limited a broader application of this approach. Tests on empirical data show that our method identifies many more sex-linked genes than existing pipelines, while making reliable inferences for downstream analyses. Simulations suggest few individuals are needed for optimal results. For species with unknown sex-determination system, the method can assess the presence and type (XY versus ZW) of sex chromosomes through a model comparison strategy. The method is particularly well optimised for sex chomosomes of young or intermediate age, which are expected in thousands of yet unstudied lineages. Any organism, including non-model ones for which nothing is known a priori, that can be bred in the lab, is suitable for our method. SEX-DETector is made freely available to the community through a Galaxy workflow.