Gene co-expression networks and profiles reveal potential biomarkers of boar taint in pigs

Department of Veterinary and Animal Sciences

Gene co-expression networks and profiles reveal potential biomarkers of boar taint in pigs

Research output: Contribution to conference › Conference abstract for conference › Research › peer-review

Standard

Gene co-expression networks and profiles reveal potential biomarkers of boar taint in pigs. / Drag, Markus; Skinkyté-Juskiené, Rúta; Do, Duy N; Kogelman, Lisette JA; Kadarmideen, Haja N.

2016. Abstract from International Conference on Quantitative Genetics, Madison, Wisconsin, United States.

Research output: Contribution to conference › Conference abstract for conference › Research › peer-review

Harvard

Drag, M, Skinkyté-Juskiené, R, Do, DN, Kogelman, LJA & Kadarmideen, HN 2016, 'Gene co-expression networks and profiles reveal potential biomarkers of boar taint in pigs', International Conference on Quantitative Genetics, Madison, United States, 12/06/2016 - 17/06/2016.

APA

Drag, M., Skinkyté-Juskiené, R., Do, D. N., Kogelman, L. JA., & Kadarmideen, H. N. (2016). Gene co-expression networks and profiles reveal potential biomarkers of boar taint in pigs. Abstract from International Conference on Quantitative Genetics, Madison, Wisconsin, United States.

Vancouver

Drag M, Skinkyté-Juskiené R, Do DN, Kogelman LJA, Kadarmideen HN. Gene co-expression networks and profiles reveal potential biomarkers of boar taint in pigs. 2016. Abstract from International Conference on Quantitative Genetics, Madison, Wisconsin, United States.

Author

Drag, Markus ; Skinkyté-Juskiené, Rúta ; Do, Duy N ; Kogelman, Lisette JA ; Kadarmideen, Haja N. / Gene co-expression networks and profiles reveal potential biomarkers of boar taint in pigs. Abstract from International Conference on Quantitative Genetics, Madison, Wisconsin, United States.1 p.

Bibtex

@conference{a3f7789a9e3e4431aae9b8842c861882,

title = "Gene co-expression networks and profiles reveal potential biomarkers of boar taint in pigs",

abstract = "Boar taint (BT) is an offensive odour or taste of porcine meat which may occur in entire male pigs due to skatole and androstenone accumulation. To avoid BT, castration of young piglets is performed but this strategy is under debate due to animal welfare concerns. The study aimed to reveal potential BT biomarkers for optimized breeding. Male pigs (n=48) with low, medium and high genetic merit of BT were selected and tissues from liver and testis were subjected to transcriptomic profiling by RNA-Seq. The reads were mapped to the Sus scrofa reference genome (Ensembl, ver. 79) which resulted in ~87% uniquely mapped reads. Quality control by Qualimap revealed ~51% of reads mapped in the exonic. Differential expression (DE) comparison of low, medium and high BT using Limma revealed a 10-fold difference in numbers of DE genes (FDR < 0.05) between liver and testis, with testis being the highly active tissue. GOseq was used to find enriched gene ontology (GO) terms and REVIGO was used to filter semantic similarities. In both liver and testis, a GO termed “oxidoreductase activity” was enriched (p < 0.05) due to high amounts of 5α-reductases involved in steroid metabolism, including androstenone synthesis. In testis, >80 DE genes were functionally classified by the PANTHER tool to “Gonadotropin releasing hormone receptor” and “Wnt signaling” pathways which play a role in reproductive maturation and proliferation of spermatogonia, respectively. WGCNA was used to build co-expression modules and enrichment analysis and semantic filtering revealed the GO terms “catalytic activity” and “transferase activity” to be overrepresented (p < 0.05) in liver and testis, respectively. Transferases include prenyltransferases which are involved in catalysis of the precursor of steroid hormones. Extraction of hub genes from important modules and integration with DE results revealed potential biomarkers for BT.",

author = "Markus Drag and R{\'u}ta Skinkyt{\'e}-Juskien{\'e} and Do, {Duy N} and Kogelman, {Lisette JA} and Kadarmideen, {Haja N}",

year = "2016",

month = jun,

day = "12",

language = "English",

note = "International Conference on Quantitative Genetics, ICQG 5 ; Conference date: 12-06-2016 Through 17-06-2016",

url = "https://www.icqg5.org/",

}

RIS

TY - ABST

T1 - Gene co-expression networks and profiles reveal potential biomarkers of boar taint in pigs

AU - Drag, Markus

AU - Skinkyté-Juskiené, Rúta

AU - Do, Duy N

AU - Kogelman, Lisette JA

AU - Kadarmideen, Haja N

N1 - Conference code: 5th

PY - 2016/6/12

Y1 - 2016/6/12

N2 - Boar taint (BT) is an offensive odour or taste of porcine meat which may occur in entire male pigs due to skatole and androstenone accumulation. To avoid BT, castration of young piglets is performed but this strategy is under debate due to animal welfare concerns. The study aimed to reveal potential BT biomarkers for optimized breeding. Male pigs (n=48) with low, medium and high genetic merit of BT were selected and tissues from liver and testis were subjected to transcriptomic profiling by RNA-Seq. The reads were mapped to the Sus scrofa reference genome (Ensembl, ver. 79) which resulted in ~87% uniquely mapped reads. Quality control by Qualimap revealed ~51% of reads mapped in the exonic. Differential expression (DE) comparison of low, medium and high BT using Limma revealed a 10-fold difference in numbers of DE genes (FDR < 0.05) between liver and testis, with testis being the highly active tissue. GOseq was used to find enriched gene ontology (GO) terms and REVIGO was used to filter semantic similarities. In both liver and testis, a GO termed “oxidoreductase activity” was enriched (p < 0.05) due to high amounts of 5α-reductases involved in steroid metabolism, including androstenone synthesis. In testis, >80 DE genes were functionally classified by the PANTHER tool to “Gonadotropin releasing hormone receptor” and “Wnt signaling” pathways which play a role in reproductive maturation and proliferation of spermatogonia, respectively. WGCNA was used to build co-expression modules and enrichment analysis and semantic filtering revealed the GO terms “catalytic activity” and “transferase activity” to be overrepresented (p < 0.05) in liver and testis, respectively. Transferases include prenyltransferases which are involved in catalysis of the precursor of steroid hormones. Extraction of hub genes from important modules and integration with DE results revealed potential biomarkers for BT.

AB - Boar taint (BT) is an offensive odour or taste of porcine meat which may occur in entire male pigs due to skatole and androstenone accumulation. To avoid BT, castration of young piglets is performed but this strategy is under debate due to animal welfare concerns. The study aimed to reveal potential BT biomarkers for optimized breeding. Male pigs (n=48) with low, medium and high genetic merit of BT were selected and tissues from liver and testis were subjected to transcriptomic profiling by RNA-Seq. The reads were mapped to the Sus scrofa reference genome (Ensembl, ver. 79) which resulted in ~87% uniquely mapped reads. Quality control by Qualimap revealed ~51% of reads mapped in the exonic. Differential expression (DE) comparison of low, medium and high BT using Limma revealed a 10-fold difference in numbers of DE genes (FDR < 0.05) between liver and testis, with testis being the highly active tissue. GOseq was used to find enriched gene ontology (GO) terms and REVIGO was used to filter semantic similarities. In both liver and testis, a GO termed “oxidoreductase activity” was enriched (p < 0.05) due to high amounts of 5α-reductases involved in steroid metabolism, including androstenone synthesis. In testis, >80 DE genes were functionally classified by the PANTHER tool to “Gonadotropin releasing hormone receptor” and “Wnt signaling” pathways which play a role in reproductive maturation and proliferation of spermatogonia, respectively. WGCNA was used to build co-expression modules and enrichment analysis and semantic filtering revealed the GO terms “catalytic activity” and “transferase activity” to be overrepresented (p < 0.05) in liver and testis, respectively. Transferases include prenyltransferases which are involved in catalysis of the precursor of steroid hormones. Extraction of hub genes from important modules and integration with DE results revealed potential biomarkers for BT.

UR - http://www.icqg5.org/

M3 - Conference abstract for conference

T2 - International Conference on Quantitative Genetics

Y2 - 12 June 2016 through 17 June 2016

ER -

ID: 163936273