对产蛋鸡蛋壳形成两个时间点的壳腺进行 RNA 测序分析，显示出基因表达谱的差异。

RNA-sequencing analysis of shell gland shows differences in gene expression profile at two time-points of eggshell formation in laying chickens.

机构信息

Animal Science, School of Environmental and Rural Science, University of New England, Armidale, New South Wales, 2351, Australia.

Present address: School of Animal and Veterinary Sciences, The University of Adelaide, Roseworthy, South Australia, 5371, Australia.

出版信息

BMC Genomics. 2019 Jan 25;20(1):89. doi: 10.1186/s12864-019-5460-4.

DOI:10.1186/s12864-019-5460-4

PMID:30683053

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC6347800/

Abstract

BACKGROUND

Eggshell formation takes place in the shell gland of the oviduct of laying hens. The eggshell is rich in calcium and various glycoproteins synthesised in the shell gland. Although studies have identified genes involved in eggshell formation, little is known about the regulation of genes in the shell gland particularly in a temporal manner. The current study investigated the global gene expression profile of the shell gland of laying hens at different time-points of eggshell formation using RNA-Sequencing (RNA-Seq) analysis.

RESULTS

Gene expression profiles of the shell gland tissue at 5 and 15 h time-points were clearly distinct from each other. Out of the 14,334 genes assessed for differential expression in the shell gland tissue, 278 genes were significantly down-regulated (log fold change > 1.5; FDR < 0.05) and 413 genes were significantly up-regulated at 15 h relative to the 5 h time-point of eggshell formation. The down-regulated genes annotated to Gene Ontology (GO) terms showed anion transport, synaptic vesicle localisation, organic anion transport, secretion and signal release as the five most enriched terms. The up-regulated gene annotation showed regulation of phospholipase activities, alanine transport, transmembrane receptor protein tyrosine kinase signalling pathway, regulation of blood vessels diameter and 3, 5-cyclic nucleotide phosphodiesterase activity as the five most enriched GO terms. The putative functions of genes identified ranged from calcium binding to receptor activity. Validation of RNA-Seq results through qPCR showed a positive correlation.

CONCLUSIONS

The down-regulated genes at 15 h relative to the 5 h time-point were most likely involved in the transport of molecules and synthesis activities, initiating the formation of the eggshell. The up-regulated genes were most likely involved in calcium transportation, as well as synthesis and secretory activities of ions and molecules, reflecting the peak stage of eggshell formation. The findings in the current study improve our understanding of eggshell formation at the molecular level and provide a foundation for further studies of mRNA and possibly microRNA regulation involved in eggshell formation in the shell gland of laying hens.

摘要

背景

蛋壳的形成发生在输卵管的蛋壳腺中。蛋壳富含钙和各种在蛋壳腺中合成的糖蛋白。虽然已经研究确定了参与蛋壳形成的基因，但对于蛋壳腺中基因的调控，特别是在时间上的调控，知之甚少。本研究采用 RNA 测序（RNA-Seq）分析，研究了不同蛋壳形成时间点的产蛋母鸡蛋壳腺的全局基因表达谱。

结果

在 5 和 15 小时时间点的蛋壳腺组织的基因表达谱明显不同。在蛋壳腺组织中差异表达的 14334 个基因中，有 278 个基因显著下调（对数倍变化>1.5；FDR<0.05），413 个基因在 15 小时相对于 5 小时的蛋壳形成时间点显著上调。注释到基因本体论（GO）术语的下调基因显示阴离子转运、突触小泡定位、有机阴离子转运、分泌和信号释放为最富集的五个术语。上调基因注释显示磷脂酶活性的调节、丙氨酸转运、跨膜受体蛋白酪氨酸激酶信号通路、血管直径的调节和 3、5-环核苷酸磷酸二酯酶活性为最富集的五个 GO 术语。鉴定的基因的假定功能范围从钙结合到受体活性。通过 qPCR 验证 RNA-Seq 结果显示出正相关。

结论

与 5 小时时间点相比，15 小时时下调的基因可能参与分子转运和合成活动，启动蛋壳形成。上调的基因可能参与钙转运，以及离子和分子的合成和分泌活动，反映了蛋壳形成的高峰期。本研究的结果提高了我们对分子水平蛋壳形成的理解，并为进一步研究参与产蛋母鸡蛋壳腺中蛋壳形成的 mRNA 甚至 microRNA 调节提供了基础。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/f9e5/6347800/a81abfbf26ed/12864_2019_5460_Fig2_HTML.jpg

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对产蛋鸡蛋壳形成两个时间点的壳腺进行 RNA 测序分析，显示出基因表达谱的差异。

RNA-sequencing analysis of shell gland shows differences in gene expression profile at two time-points of eggshell formation in laying chickens.

机构信息

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