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Global analysis of differential gene expression within the porcine conceptus transcriptome as it transitions through spherical, ovoid, and tubular morphologies during the initiation of elongation

概念 卵球形 生物 转录组 细胞生物学 基因表达 基因表达调控 基因表达谱 延伸率 基因 胚胎 遗传学 妊娠期 数学 怀孕 极限抗拉强度 几何学 材料科学 冶金
作者
Sophie C. Walsh,Jeremy R. Miles,Brittney N. Keel,Lea A. Rempel,E. C. Wright-Johnson,Amanda K. Lindholm‐Perry,William T. Oliver,Angela K. Pannier
出处
期刊:Molecular Reproduction and Development [Wiley]
卷期号:89 (4): 175-201 被引量:6
标识
DOI:10.1002/mrd.23553
摘要

Abstract This study aimed to identify transcriptome differences between distinct or transitional stage spherical, ovoid, and tubular porcine blastocysts throughout the initiation of elongation. We performed a global transcriptome analysis of differential gene expression using RNA‐Seq with high temporal resolution between spherical, ovoid, and tubular stage blastocysts at specific sequential stages of development from litters containing conceptus populations of distinct or transitional blastocysts. After RNA‐Seq analysis, significant differentially expressed genes (DEGs) and pathways were identified between distinct morphologies or sequential development stages. Overall, 1898 significant DEGs were identified between distinct spherical and ovoid morphologies, with 311 total DEGs between developmental stages throughout this first morphological transition, while 15 were identified between distinct ovoid and tubular, with eight total throughout these second morphological transition developmental stages. The high quantity of DEGs and pathways between conceptus stages throughout the spherical to ovoid transition suggests the importance of gene regulation during this first morphological transition for initiating elongation. Further, extensive DEG coverage of known elongation signaling pathways was illustrated from spherical to ovoid, and regulation of lipid signaling and membrane/ECM remodeling across these early conceptus stages were implicated as essential to this process, providing novel insights into potential mechanisms governing this rapid morphological change.
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