Genetic Programs in Human and Mouse Early Embryos Revealed by Single-cell RNA Sequencing

Overview

Journal Nature

Specialty Science

Date 2013 Jul 30

PMID 23892778

Citations 472

Authors

Zhigang Xue

Kevin Huang

Chaochao Cai

Lingbo Cai

Chun-Yan Jiang

Yun Feng

Zhenshan Liu

Qiao Zeng

Liming Cheng

Yi E Sun

Jia-Yin Liu

Steve Horvath

Guoping Fan

Affiliations

Soon will be listed here.

Abstract

Mammalian pre-implantation development is a complex process involving dramatic changes in the transcriptional architecture. We report here a comprehensive analysis of transcriptome dynamics from oocyte to morula in both human and mouse embryos, using single-cell RNA sequencing. Based on single-nucleotide variants in human blastomere messenger RNAs and paternal-specific single-nucleotide polymorphisms, we identify novel stage-specific monoallelic expression patterns for a significant portion of polymorphic gene transcripts (25 to 53%). By weighted gene co-expression network analysis, we find that each developmental stage can be delineated concisely by a small number of functional modules of co-expressed genes. This result indicates a sequential order of transcriptional changes in pathways of cell cycle, gene regulation, translation and metabolism, acting in a step-wise fashion from cleavage to morula. Cross-species comparisons with mouse pre-implantation embryos reveal that the majority of human stage-specific modules (7 out of 9) are notably preserved, but developmental specificity and timing differ between human and mouse. Furthermore, we identify conserved key members (or hub genes) of the human and mouse networks. These genes represent novel candidates that are likely to be key in driving mammalian pre-implantation development. Together, the results provide a valuable resource to dissect gene regulatory mechanisms underlying progressive development of early mammalian embryos.

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