RNA sequencing-based analysis of the magnum tissues revealed the novel genes and biological pathways involved in the egg-white formation in the laying hen

RNA sequencing-based analysis of the magnum tissues revealed the novel genes and biological pathways involved in the egg-white formation in the laying hen

Abstract Background The mechanism of egg formation in the oviduct of laying hens is tightly controlled; each segment of the oviduct contributes a unique component of the egg. Several genes/proteins are involved in the synthesis of a completely healthy egg. This implies a time- and tissue-specific ex...

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Main Authors: Nirvay Sah, Donna Lee Kuehu, Vedbar Singh Khadka, Youping Deng, Rajesh Jha, Sanjeev Wasti, Birendra Mishra
Format: Article
Language:English
Published: BMC 2021-05-01
Series:BMC Genomics
Subjects:
Egg formation
Egg-white
Laying hens
Magnum
RNA-Seq
Transcriptome
Online Access:https://doi.org/10.1186/s12864-021-07634-x
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spelling doaj-89e8705f5d2f48bdb2e052aaa55f777d2021-05-02T11:23:10ZengBMCBMC Genomics1471-21642021-05-0122111610.1186/s12864-021-07634-xRNA sequencing-based analysis of the magnum tissues revealed the novel genes and biological pathways involved in the egg-white formation in the laying henNirvay Sah0Donna Lee Kuehu1Vedbar Singh Khadka2Youping Deng3Rajesh Jha4Sanjeev Wasti5Birendra Mishra6Department of Human Nutrition, Food and Animal Sciences, University of Hawaii at ManoaDepartment of Molecular Biosciences and Bioengineering, University of Hawaii at ManoaDepartment of Quantitative Health Sciences, John A. Burns School of Medicine, University of Hawaii at ManoaDepartment of Quantitative Health Sciences, John A. Burns School of Medicine, University of Hawaii at ManoaDepartment of Human Nutrition, Food and Animal Sciences, University of Hawaii at ManoaDepartment of Human Nutrition, Food and Animal Sciences, University of Hawaii at ManoaDepartment of Human Nutrition, Food and Animal Sciences, University of Hawaii at ManoaAbstract Background The mechanism of egg formation in the oviduct of laying hens is tightly controlled; each segment of the oviduct contributes a unique component of the egg. Several genes/proteins are involved in the synthesis of a completely healthy egg. This implies a time- and tissue-specific expression of genes and proteins in the different oviductal segments. We used hens at different physiological stages and time points to understand the transcriptional regulation of egg-white (albumen) synthesis and secretion onto the eggs in the magnum of laying hens. This study used Next-Generation Sequencing and quantitative real-time PCR (qPCR) to detect the novel genes and the cognate biological pathways that regulate the major events during the albumen formation. Results Magnum tissues collected from laying (n = 5 each at 3 h post-ovulation, p.o. and 15–20 h p.o.), non-laying (n = 4), and molting (n = 5) hens were used for differential gene expression analyses. A total of 540 genes (152 upregulated and 388 down-regulated) were differentially expressed at 3 h p.o. in the magnum of laying hens. Kyoto Encyclopedia of Genes and Genomes pathways analysis of the 152 upregulated genes revealed that glycine, serine, and threonine metabolism was the most-enriched biological pathway. Furthermore, the top two most enriched keywords for the upregulated genes were amino-acid biosynthesis and proteases. Nine candidate genes associated with albumen formation were validated with qPCR to have differential expression in laying, non-laying, and molting hens. Proteases such as TMPRSS9, CAPN2, MMP1, and MMP9 (protein maturation, ECM degradation, and angiogenesis); enzymes such as PSPH, PHGDH, and PSAT1 (amino-acid biosynthesis); RLN3, ACE, and REN (albumen synthesis, secretion and egg transport); and AVD, AvBD11, and GPX3 (antimicrobial and antioxidants) were recognized as essential molecules linked to albumen deposition in the magnum. Conclusions This study revealed some novel genes that participate in the signaling pathways for egg-white synthesis and secretion along with some well-known functional genes. These findings help to understand the mechanisms involved in albumen biosynthesis.https://doi.org/10.1186/s12864-021-07634-xEgg formationEgg-whiteLaying hensMagnumRNA-SeqTranscriptome
collection DOAJ
language English
format Article
sources DOAJ
author Nirvay Sah
Donna Lee Kuehu
Vedbar Singh Khadka
Youping Deng
Rajesh Jha
Sanjeev Wasti
Birendra Mishra
spellingShingle Nirvay Sah
Donna Lee Kuehu
Vedbar Singh Khadka
Youping Deng
Rajesh Jha
Sanjeev Wasti
Birendra Mishra
RNA sequencing-based analysis of the magnum tissues revealed the novel genes and biological pathways involved in the egg-white formation in the laying hen
BMC Genomics
Egg formation
Egg-white
Laying hens
Magnum
RNA-Seq
Transcriptome
author_facet Nirvay Sah
Donna Lee Kuehu
Vedbar Singh Khadka
Youping Deng
Rajesh Jha
Sanjeev Wasti
Birendra Mishra
author_sort Nirvay Sah
title RNA sequencing-based analysis of the magnum tissues revealed the novel genes and biological pathways involved in the egg-white formation in the laying hen
title_short RNA sequencing-based analysis of the magnum tissues revealed the novel genes and biological pathways involved in the egg-white formation in the laying hen
title_full RNA sequencing-based analysis of the magnum tissues revealed the novel genes and biological pathways involved in the egg-white formation in the laying hen
title_fullStr RNA sequencing-based analysis of the magnum tissues revealed the novel genes and biological pathways involved in the egg-white formation in the laying hen
title_full_unstemmed RNA sequencing-based analysis of the magnum tissues revealed the novel genes and biological pathways involved in the egg-white formation in the laying hen
title_sort rna sequencing-based analysis of the magnum tissues revealed the novel genes and biological pathways involved in the egg-white formation in the laying hen
publisher BMC
series BMC Genomics
issn 1471-2164
publishDate 2021-05-01
description Abstract Background The mechanism of egg formation in the oviduct of laying hens is tightly controlled; each segment of the oviduct contributes a unique component of the egg. Several genes/proteins are involved in the synthesis of a completely healthy egg. This implies a time- and tissue-specific expression of genes and proteins in the different oviductal segments. We used hens at different physiological stages and time points to understand the transcriptional regulation of egg-white (albumen) synthesis and secretion onto the eggs in the magnum of laying hens. This study used Next-Generation Sequencing and quantitative real-time PCR (qPCR) to detect the novel genes and the cognate biological pathways that regulate the major events during the albumen formation. Results Magnum tissues collected from laying (n = 5 each at 3 h post-ovulation, p.o. and 15–20 h p.o.), non-laying (n = 4), and molting (n = 5) hens were used for differential gene expression analyses. A total of 540 genes (152 upregulated and 388 down-regulated) were differentially expressed at 3 h p.o. in the magnum of laying hens. Kyoto Encyclopedia of Genes and Genomes pathways analysis of the 152 upregulated genes revealed that glycine, serine, and threonine metabolism was the most-enriched biological pathway. Furthermore, the top two most enriched keywords for the upregulated genes were amino-acid biosynthesis and proteases. Nine candidate genes associated with albumen formation were validated with qPCR to have differential expression in laying, non-laying, and molting hens. Proteases such as TMPRSS9, CAPN2, MMP1, and MMP9 (protein maturation, ECM degradation, and angiogenesis); enzymes such as PSPH, PHGDH, and PSAT1 (amino-acid biosynthesis); RLN3, ACE, and REN (albumen synthesis, secretion and egg transport); and AVD, AvBD11, and GPX3 (antimicrobial and antioxidants) were recognized as essential molecules linked to albumen deposition in the magnum. Conclusions This study revealed some novel genes that participate in the signaling pathways for egg-white synthesis and secretion along with some well-known functional genes. These findings help to understand the mechanisms involved in albumen biosynthesis.
topic Egg formation
Egg-white
Laying hens
Magnum
RNA-Seq
Transcriptome
url https://doi.org/10.1186/s12864-021-07634-x
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