Integrative Systems Biology Analysis Elucidates Mastitis Disease Underlying Functional Modules in Dairy Cattle

Integrative Systems Biology Analysis Elucidates Mastitis Disease Underlying Functional Modules in Dairy Cattle

Background: Mastitis is the most prevalent disease in dairy cattle and one of the most significant bovine pathologies affecting milk production, animal health, and reproduction. In addition, mastitis is the most common, expensive, and contagious infection in the dairy industry.Methods: A meta-analys...

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Main Authors: Nooshin Ghahramani, Jalil Shodja, Seyed Abbas Rafat, Bahman Panahi, Karim Hasanpur
Format: Article
Language:English
Published: Frontiers Media S.A. 2021-10-01
Series:Frontiers in Genetics
Subjects:
attribute weighting
E. coli
machine learning
mastitis
meta-analysis
WGCNA
Online Access:https://www.frontiersin.org/articles/10.3389/fgene.2021.712306/full
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spelling doaj-435aa030cb5247cab2c52511331675802021-10-08T07:39:54ZengFrontiers Media S.A.Frontiers in Genetics1664-80212021-10-011210.3389/fgene.2021.712306712306Integrative Systems Biology Analysis Elucidates Mastitis Disease Underlying Functional Modules in Dairy CattleNooshin Ghahramani0Jalil Shodja1Seyed Abbas Rafat2Bahman Panahi3Karim Hasanpur4Department of Animal Science, Faculty of Agriculture, University of Tabriz, Tabriz, IranDepartment of Animal Science, Faculty of Agriculture, University of Tabriz, Tabriz, IranDepartment of Animal Science, Faculty of Agriculture, University of Tabriz, Tabriz, IranDepartment of Genomics, Branch for Northwest & West Region, Agricultural Biotechnology Research Institute of Iran (ABRII), Agricultural Research, Education and Extension Organization (AREEO), Tabriz, IranDepartment of Animal Science, Faculty of Agriculture, University of Tabriz, Tabriz, IranBackground: Mastitis is the most prevalent disease in dairy cattle and one of the most significant bovine pathologies affecting milk production, animal health, and reproduction. In addition, mastitis is the most common, expensive, and contagious infection in the dairy industry.Methods: A meta-analysis of microarray and RNA-seq data was conducted to identify candidate genes and functional modules associated with mastitis disease. The results were then applied to systems biology analysis via weighted gene coexpression network analysis (WGCNA), Gene Ontology, enrichment analysis for the Kyoto Encyclopedia of Genes and Genomes (KEGG), and modeling using machine-learning algorithms.Results: Microarray and RNA-seq datasets were generated for 2,089 and 2,794 meta-genes, respectively. Between microarray and RNA-seq datasets, a total of 360 meta-genes were found that were significantly enriched as “peroxisome,” “NOD-like receptor signaling pathway,” “IL-17 signaling pathway,” and “TNF signaling pathway” KEGG pathways. The turquoise module (n = 214 genes) and the brown module (n = 57 genes) were identified as critical functional modules associated with mastitis through WGCNA. PRDX5, RAB5C, ACTN4, SLC25A16, MAPK6, CD53, NCKAP1L, ARHGEF2, COL9A1, and PTPRC genes were detected as hub genes in identified functional modules. Finally, using attribute weighting and machine-learning methods, hub genes that are sufficiently informative in Escherichia coli mastitis were used to optimize predictive models. The constructed model proposed the optimal approach for the meta-genes and validated several high-ranked genes as biomarkers for E. coli mastitis using the decision tree (DT) method.Conclusion: The candidate genes and pathways proposed in this study may shed new light on the underlying molecular mechanisms of mastitis disease and suggest new approaches for diagnosing and treating E. coli mastitis in dairy cattle.https://www.frontiersin.org/articles/10.3389/fgene.2021.712306/fullattribute weightingE. colimachine learningmastitismeta-analysisWGCNA
collection DOAJ
language English
format Article
sources DOAJ
author Nooshin Ghahramani
Jalil Shodja
Seyed Abbas Rafat
Bahman Panahi
Karim Hasanpur
spellingShingle Nooshin Ghahramani
Jalil Shodja
Seyed Abbas Rafat
Bahman Panahi
Karim Hasanpur
Integrative Systems Biology Analysis Elucidates Mastitis Disease Underlying Functional Modules in Dairy Cattle
Frontiers in Genetics
attribute weighting
E. coli
machine learning
mastitis
meta-analysis
WGCNA
author_facet Nooshin Ghahramani
Jalil Shodja
Seyed Abbas Rafat
Bahman Panahi
Karim Hasanpur
author_sort Nooshin Ghahramani
title Integrative Systems Biology Analysis Elucidates Mastitis Disease Underlying Functional Modules in Dairy Cattle
title_short Integrative Systems Biology Analysis Elucidates Mastitis Disease Underlying Functional Modules in Dairy Cattle
title_full Integrative Systems Biology Analysis Elucidates Mastitis Disease Underlying Functional Modules in Dairy Cattle
title_fullStr Integrative Systems Biology Analysis Elucidates Mastitis Disease Underlying Functional Modules in Dairy Cattle
title_full_unstemmed Integrative Systems Biology Analysis Elucidates Mastitis Disease Underlying Functional Modules in Dairy Cattle
title_sort integrative systems biology analysis elucidates mastitis disease underlying functional modules in dairy cattle
publisher Frontiers Media S.A.
series Frontiers in Genetics
issn 1664-8021
publishDate 2021-10-01
description Background: Mastitis is the most prevalent disease in dairy cattle and one of the most significant bovine pathologies affecting milk production, animal health, and reproduction. In addition, mastitis is the most common, expensive, and contagious infection in the dairy industry.Methods: A meta-analysis of microarray and RNA-seq data was conducted to identify candidate genes and functional modules associated with mastitis disease. The results were then applied to systems biology analysis via weighted gene coexpression network analysis (WGCNA), Gene Ontology, enrichment analysis for the Kyoto Encyclopedia of Genes and Genomes (KEGG), and modeling using machine-learning algorithms.Results: Microarray and RNA-seq datasets were generated for 2,089 and 2,794 meta-genes, respectively. Between microarray and RNA-seq datasets, a total of 360 meta-genes were found that were significantly enriched as “peroxisome,” “NOD-like receptor signaling pathway,” “IL-17 signaling pathway,” and “TNF signaling pathway” KEGG pathways. The turquoise module (n = 214 genes) and the brown module (n = 57 genes) were identified as critical functional modules associated with mastitis through WGCNA. PRDX5, RAB5C, ACTN4, SLC25A16, MAPK6, CD53, NCKAP1L, ARHGEF2, COL9A1, and PTPRC genes were detected as hub genes in identified functional modules. Finally, using attribute weighting and machine-learning methods, hub genes that are sufficiently informative in Escherichia coli mastitis were used to optimize predictive models. The constructed model proposed the optimal approach for the meta-genes and validated several high-ranked genes as biomarkers for E. coli mastitis using the decision tree (DT) method.Conclusion: The candidate genes and pathways proposed in this study may shed new light on the underlying molecular mechanisms of mastitis disease and suggest new approaches for diagnosing and treating E. coli mastitis in dairy cattle.
topic attribute weighting
E. coli
machine learning
mastitis
meta-analysis
WGCNA
url https://www.frontiersin.org/articles/10.3389/fgene.2021.712306/full
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