2023
DOI: 10.1101/2023.02.03.526992
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eXclusionarY: Ten years later, where are the sex chromosomes in GWAS?

Abstract: Ten years ago, a detailed analysis of genome-wide association studies showed that only 33% of the studies included the X chromosome. Multiple recommendations were made to combat eXclusion. Here we re-surveyed the research landscape to determine if these earlier recommendations had been translated. Unfortunately, among the summary statistics reported in 2021 in the NHGRI-EBI GWAS catalog, only 25% provided results for the X chromosome and 3% for the Y chromosome, suggesting that the eXclusion phenomenon documen… Show more

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Cited by 6 publications
(18 citation statements)
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“…The introduction of read mapping errors on the X chromosome only affects 5% of the total length of the X chromosome, which equates to only 0.25% of the variants called become unreliable when not accounting for sex chromosome complement and using a Default reference genome (Figure 1; Table 2). Thus, the common practice of purposefully introducing an error rate of 5% (excluding the X chromosome) to potentially avoid an error rate of 0.25% (including the X chromosome) is excessive and, technically speaking, precludes the use of the term “genome-wide” in most association studies in humans (Sun et al 2023; Wise et al 2013). However, it is a relatively trivial task to inform the reference genome with the sex chromosome complement when mapping samples and accommodate changes in ploidy across different regions; thus ensuring that reliable variant calls across, even within the PARs and XTR (Carey et al 2022; Webster et al 2019).…”
Section: Discussionmentioning
confidence: 99%
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“…The introduction of read mapping errors on the X chromosome only affects 5% of the total length of the X chromosome, which equates to only 0.25% of the variants called become unreliable when not accounting for sex chromosome complement and using a Default reference genome (Figure 1; Table 2). Thus, the common practice of purposefully introducing an error rate of 5% (excluding the X chromosome) to potentially avoid an error rate of 0.25% (including the X chromosome) is excessive and, technically speaking, precludes the use of the term “genome-wide” in most association studies in humans (Sun et al 2023; Wise et al 2013). However, it is a relatively trivial task to inform the reference genome with the sex chromosome complement when mapping samples and accommodate changes in ploidy across different regions; thus ensuring that reliable variant calls across, even within the PARs and XTR (Carey et al 2022; Webster et al 2019).…”
Section: Discussionmentioning
confidence: 99%
“…In line with prior work, we provided additional evidence that technical artifacts of including the sex chromosomes in genomics analyses can be negated with available information and tools (Olney et al 2019; Webster et al 2019). We know that, though the ‘eXclusion’ of the X chromosome is widespread (Wise et al 2013), the exclusion of the Y is even more extensive in empirical and clinical genomics (Sun et al 2023). SCC-aware reference genomes can effectively negate the effects of homology on the sex chromosomes in XX individuals and reduce this mis-mapping in XY individuals, allowing for their accurate inclusion in human genomics studies (Oill, 2022).…”
Section: Discussionmentioning
confidence: 99%
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