Single-cell transcriptome reveals insights into the development and function of the zebrafish ovary

生物 斑马鱼 体细胞 转录组 生殖细胞 电池类型 细胞生物学 性腺 干细胞 基因 卵母细胞 生殖系 模式生物 遗传学 卵巢 间质细胞 细胞 胚胎 基因表达 解剖 癌症研究
作者
Yulong Liu,Michelle E. Kossack,Matthew E. McFaul,Lana N Christensen,Stefan Siebert,Sydney R. Wyatt,Caramai N. Kamei,Samuel Horst,Nayeli Arroyo,Iain A. Drummond,Celina E. Juliano,Bruce W. Draper
出处
期刊:eLife [eLife Sciences Publications Ltd]
卷期号:11 被引量:103
标识
DOI:10.7554/elife.76014
摘要

Zebrafish are an established research organism that has made many contributions to our understanding of vertebrate tissue and organ development, yet there are still significant gaps in our understanding of the genes that regulate gonad development, sex, and reproduction. Unlike the development of many organs, such as the brain and heart that form during the first few days of development, zebrafish gonads do not begin to form until the larval stage (≥5 days post-fertilization). Thus, forward genetic screens have identified very few genes required for gonad development. In addition, bulk RNA-sequencing studies that identify genes expressed in the gonads do not have the resolution necessary to define minor cell populations that may play significant roles in the development and function of these organs. To overcome these limitations, we have used single-cell RNA sequencing to determine the transcriptomes of cells isolated from juvenile zebrafish ovaries. This resulted in the profiles of 10,658 germ cells and 14,431 somatic cells. Our germ cell data represents all developmental stages from germline stem cells to early meiotic oocytes. Our somatic cell data represents all known somatic cell types, including follicle cells, theca cells, and ovarian stromal cells. Further analysis revealed an unexpected number of cell subpopulations within these broadly defined cell types. To further define their functional significance, we determined the location of these cell subpopulations within the ovary. Finally, we used gene knockout experiments to determine the roles of foxl2l and wnt9b for oocyte development and sex determination and/or differentiation, respectively. Our results reveal novel insights into zebrafish ovarian development and function, and the transcriptome profiles will provide a valuable resource for future studies.
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