Comparative transcriptomics in adipose tissue of Holstein & Hereford cattle

Improvement in milk production of dairy cows appeared to have led to a significant decline in fertility. However, beef cattle genetically selected for high growth rates have not been reported to have compromised fertility. Coincidentally, body conformation of dairy cows is reportedly lower compared...

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Bibliographic Details
Main Authors: Choong, Siew Shean, Perry, Viv E. A., Mongan, Nigel P., Yon, Lisa, Emes, Richard D.
Format: Conference or Workshop Item
Published: 2016
Online Access:http://discol.umk.edu.my/id/eprint/9209/
http://oblind.com/7thseavsacongress2016/official/
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Summary:Improvement in milk production of dairy cows appeared to have led to a significant decline in fertility. However, beef cattle genetically selected for high growth rates have not been reported to have compromised fertility. Coincidentally, body conformation of dairy cows is reportedly lower compared to beef cattle. This may be of importance as adipose tissue (AT) has been reported to be pertinent in regulation of the hypothalamus-pituitary-gonadal axis, thus influencing reproductive performances. The current study aimed to establish and compare transcriptomic signatures ofAT in Holsteins (dairy breed) and Herefords (beef breed) in order to understanding of the differences in nutritional uptake, fat deposition, and resource mobilisation between these breeds. Samples from Holsteins (3 and 7 years old) and Herefords (2 years 7 months and 2 years 10 months old) were used for breed comparison. Next generation sequencing was utilised to generate transcriptomes of perirenal AT. RNA was extracted using QiagenRNeasy Mini Kit, followed by quality evaluation with Agilent 2100 Bioanalyzer. RNA transcription was quantified using RNA-Seq (IlluminaHiSeq). A total of 73,22,082 (HOL1), 80,156,542 (HOL2), 57,436,770 (HER1) and 56,318,570 (HER2) paired reads were obtained. Differential gene expressions (DGE) were analysed using edgeR (www.bioconductor.org/packages/release/bioc/html/edgeR.html). Statistically significant DGE of interest related to functions or influence on nutrition, fat metabolism, energy expenditure, adipogenesis and lipogenesis (ELOVL5, INSIG1, IRF4, LEPR LDLR, RAN, RXRα, and SCD)were validated using qRT-PCR.Based on the RNA-seq data, mRNA expression of ELOVL5, INSIG1, LDLR, RAN, RXRα, and SCD were higher in Herefords as compared to Holsteins, whereas IRF4 and LEPR were lower. Results reflected that dairy cows (Holstein) generally have a lower fat mass compared to beef breeds (Hereford). This also indicated that lipids were heavily mobilised from adipocytes of Holstein to sustain the high energy demand of milk production, thus affecting the subsequent pregnancy. Outcome of this study not only contributed to further understanding of differences in reproductive performance between these breeds, also data may be used to improve management and productivity of these animals.