College of Agriculture & Natural Resources

Permanent URI for this communityhttp://hdl.handle.net/1903/1598

The collections in this community comprise faculty research works, as well as graduate theses and dissertations.

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Author: search.filters.author.Boschiero, Clarissa

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    Insights from Initial Variant Detection by Sequencing Single Sperm in Cattle
    (MDPI, 2021-11-15) Yang, Liu; Gao, Yahui; Boschiero, Clarissa; Li, Li; Zhang, Hongping; Ma, Li; Liu, George E.
    Meiotic de novo mutation (DNM) is one of the important phenomena contributing to gamete genome diversity. However, except for humans and a few model organisms, they are not well studied in livestock, including cattle. Moreover, bulk sperm samples have been routinely utilized in experiments, which include millions of single sperm cells and only report high-frequency variants. In this study, we isolated and sequenced 143 single sperms from two Holstein bulls and identified hundreds of candidate DNM events in ten sperms with deep sequencing coverage. We estimated DNM rates ranging from 1.08 × 10−8 to 3.78 × 10−8 per nucleotide per generation. We further validated 12 out of 14 selected DNM events using Sanger sequencing. To our knowledge, this is the first single sperm whole-genome sequencing effort in livestock, which provided useful information for future studies of point mutations and male fertility. Our preliminary results pointed out future research directions and highlighted the importance of uniform whole genome amplification, deep sequence coverage, and dedicated software pipelines for genetic variant detection using single-cell sequencing data.
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    Towards the detection of copy number variation from single sperm sequencing in cattle
    (Springer Nature, 2022-03-17) Yang, Liu; Gao, Yahui; Oswalt, Adam; Fang, Lingzhao; Boschiero, Clarissa; Neupane, Mahesh; Sattler, Charles G.; Li, Cong-jun; Seroussi, Eyal; Xu, Lingyang; Yang, Lv; Li, Li; Zhang, Hongping; Rosen, Benjamin D.; Van Tassell, Curtis P.; Zhou, Yang; Ma, Li; Liu, George E.
    Copy number variation (CNV) has been routinely studied using bulk-cell sequencing. However, CNV is not well studied on the single-cell level except for humans and a few model organisms. We sequenced 143 single sperms of two Holstein bulls, from which we predicted CNV events using 14 single sperms with deep sequencing. We then compared the CNV results derived from single sperms with the bulk-cell sequencing of one bull’s family trio of diploid genomes. As a known CNV hotspot, segmental duplications were also predicted using the bovine ARS-UCD1.2 genome. Although the trio CNVs validated only some single sperm CNVs, they still showed a distal chromosomal distribution pattern and significant associations with segmental duplications and satellite repeats. Our preliminary results pointed out future research directions and highlighted the importance of uniform whole genome amplification, deep sequence coverage, and dedicated software pipelines for CNV detection using single cell sequencing data.