A temporal extracellular transcriptome atlas of human pre-implantation development.

IF 11.1 Q1 CELL BIOLOGY Cell genomics Pub Date : 2024-01-10 DOI:10.1016/j.xgen.2023.100464
Qiuyang Wu, Zixu Zhou, Zhangming Yan, Megan Connel, Gabriel Garzo, Analisa Yeo, Wei Zhang, H Irene Su, Sheng Zhong
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Abstract

Non-invasively evaluating gene expression products in human pre-implantation embryos remains a significant challenge. Here, we develop a non-invasive method for comprehensive characterization of the extracellular RNAs (exRNAs) in a single droplet of spent media that was used to culture human in vitro fertilization embryos. We generate the temporal extracellular transcriptome atlas (TETA) of human pre-implantation development. TETA consists of 245 exRNA sequencing datasets for five developmental stages. These data reveal approximately 4,000 exRNAs at each stage. The exRNAs of the developmentally arrested embryos are enriched with the genes involved in negative regulation of the cell cycle, revealing an exRNA signature of developmental arrest. Furthermore, a machine-learning model can approximate the morphology-based rating of embryo quality based on the exRNA levels. These data reveal the widespread presence of coding gene-derived exRNAs at every stage of human pre-implantation development, and these exRNAs provide rich information on the physiology of the embryo.

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人类胚胎植入前发育的细胞外转录组时间图谱。
无创评估人类植入前胚胎中的基因表达产物仍然是一项重大挑战。在这里,我们开发了一种非侵入式方法,用于全面鉴定用于培养人类体外受精胚胎的单滴废培养基中的细胞外 RNA(exRNA)。我们生成了人类胚胎植入前发育的时间胞外转录组图谱(TETA)。TETA 包括五个发育阶段的 245 个 exRNA 测序数据集。这些数据揭示了每个阶段约 4,000 个 exRNA。发育停滞胚胎的外显子RNA富含参与细胞周期负调控的基因,揭示了发育停滞的外显子RNA特征。此外,一个机器学习模型可以根据外显子RNA水平对胚胎质量进行基于形态学的近似评级。这些数据揭示了编码基因衍生的外显子RNA广泛存在于人类胚胎植入前发育的每个阶段,这些外显子RNA提供了丰富的胚胎生理信息。
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