Single cell RNA-seq reveals genes vital to in vitro fertilized embryos and parthenotes in pigs

Single cell RNA-seq reveals genes vital to in vitro fertilized embryos and parthenotes in pigs

Abstract Successful early embryo development requires the correct reprogramming and configuration of gene networks by the timely and faithful execution of zygotic genome activation (ZGA). However, the regulatory principle of molecular elements and circuits fundamental to embryo development remains l...

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Main Authors: Zhi-Qiang Du, Hao Liang, Xiao-Man Liu, Yun-Hua Liu, Chonglong Wang, Cai-Xia Yang
Format: Article
Language:English
Published: Nature Publishing Group 2021-07-01
Series:Scientific Reports
Online Access:https://doi.org/10.1038/s41598-021-93904-3
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spelling doaj-7a4f98bb1bc14779aeb4d09e34ad330b2021-07-18T11:25:18ZengNature Publishing GroupScientific Reports2045-23222021-07-0111111310.1038/s41598-021-93904-3Single cell RNA-seq reveals genes vital to in vitro fertilized embryos and parthenotes in pigsZhi-Qiang Du0Hao Liang1Xiao-Man Liu2Yun-Hua Liu3Chonglong Wang4Cai-Xia Yang5College of Animal Science, Yangtze UniversityCollege of Animal Science, Yangtze UniversityCollege of Animal Science, Yangtze UniversityCollege of Animal Science and Technology, Northeast Agricultural UniversityKey Laboratory of Pig Molecular Quantitative Genetics of Anhui Academy of Agricultural Sciences, Anhui Provincial Key Laboratory of Livestock and Poultry Product Safety Engineering, Institute of Animal Husbandry and Veterinary Medicine, Anhui Academy of Agricultural SciencesCollege of Animal Science, Yangtze UniversityAbstract Successful early embryo development requires the correct reprogramming and configuration of gene networks by the timely and faithful execution of zygotic genome activation (ZGA). However, the regulatory principle of molecular elements and circuits fundamental to embryo development remains largely obscure. Here, we profiled the transcriptomes of single zygotes and blastomeres, obtained from in vitro fertilized (IVF) or parthenogenetically activated (PA) porcine early embryos (1- to 8-cell), focusing on the gene expression dynamics and regulatory networks associated with maternal-to-zygote transition (MZT) (mainly maternal RNA clearance and ZGA). We found that minor and major ZGAs occur at 1-cell and 4-cell stages for both IVF and PA embryos, respectively. Maternal RNAs gradually decay from 1- to 8-cell embryos. Top abundantly expressed genes (CDV3, PCNA, CDR1, YWHAE, DNMT1, IGF2BP3, ARMC1, BTG4, UHRF2 and gametocyte-specific factor 1-like) in both IVF and PA early embryos identified are of vital roles for embryo development. Differentially expressed genes within IVF groups are different from that within PA groups, indicating bi-parental and maternal-only embryos have specific sets of mRNAs distinctly decayed and activated. Pathways enriched from DEGs showed that RNA associated pathways (RNA binding, processing, transport and degradation) could be important. Moreover, mitochondrial RNAs are found to be actively transcribed, showing dynamic expression patterns, and for DNA/H3K4 methylation and transcription factors as well. Taken together, our findings provide an important resource to investigate further the epigenetic and genome regulation of MZT events in early embryos of pigs.https://doi.org/10.1038/s41598-021-93904-3
collection DOAJ
language English
format Article
sources DOAJ
author Zhi-Qiang Du
Hao Liang
Xiao-Man Liu
Yun-Hua Liu
Chonglong Wang
Cai-Xia Yang
spellingShingle Zhi-Qiang Du
Hao Liang
Xiao-Man Liu
Yun-Hua Liu
Chonglong Wang
Cai-Xia Yang
Single cell RNA-seq reveals genes vital to in vitro fertilized embryos and parthenotes in pigs
Scientific Reports
author_facet Zhi-Qiang Du
Hao Liang
Xiao-Man Liu
Yun-Hua Liu
Chonglong Wang
Cai-Xia Yang
author_sort Zhi-Qiang Du
title Single cell RNA-seq reveals genes vital to in vitro fertilized embryos and parthenotes in pigs
title_short Single cell RNA-seq reveals genes vital to in vitro fertilized embryos and parthenotes in pigs
title_full Single cell RNA-seq reveals genes vital to in vitro fertilized embryos and parthenotes in pigs
title_fullStr Single cell RNA-seq reveals genes vital to in vitro fertilized embryos and parthenotes in pigs
title_full_unstemmed Single cell RNA-seq reveals genes vital to in vitro fertilized embryos and parthenotes in pigs
title_sort single cell rna-seq reveals genes vital to in vitro fertilized embryos and parthenotes in pigs
publisher Nature Publishing Group
series Scientific Reports
issn 2045-2322
publishDate 2021-07-01
description Abstract Successful early embryo development requires the correct reprogramming and configuration of gene networks by the timely and faithful execution of zygotic genome activation (ZGA). However, the regulatory principle of molecular elements and circuits fundamental to embryo development remains largely obscure. Here, we profiled the transcriptomes of single zygotes and blastomeres, obtained from in vitro fertilized (IVF) or parthenogenetically activated (PA) porcine early embryos (1- to 8-cell), focusing on the gene expression dynamics and regulatory networks associated with maternal-to-zygote transition (MZT) (mainly maternal RNA clearance and ZGA). We found that minor and major ZGAs occur at 1-cell and 4-cell stages for both IVF and PA embryos, respectively. Maternal RNAs gradually decay from 1- to 8-cell embryos. Top abundantly expressed genes (CDV3, PCNA, CDR1, YWHAE, DNMT1, IGF2BP3, ARMC1, BTG4, UHRF2 and gametocyte-specific factor 1-like) in both IVF and PA early embryos identified are of vital roles for embryo development. Differentially expressed genes within IVF groups are different from that within PA groups, indicating bi-parental and maternal-only embryos have specific sets of mRNAs distinctly decayed and activated. Pathways enriched from DEGs showed that RNA associated pathways (RNA binding, processing, transport and degradation) could be important. Moreover, mitochondrial RNAs are found to be actively transcribed, showing dynamic expression patterns, and for DNA/H3K4 methylation and transcription factors as well. Taken together, our findings provide an important resource to investigate further the epigenetic and genome regulation of MZT events in early embryos of pigs.
url https://doi.org/10.1038/s41598-021-93904-3
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