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7. A medium-density genetic linkage map of the bovine genome

Author

Barendse, W., Vaiman, D., Kemp, S. J., Sugimoto, Y., Armitage, S. M., Williams, J. L., Sun, H. S., Eggen, A., Agaba, M., Aleyasin, S. A., Band, M., Bishop, M. D., Buitkamp, J., Byrne, K., Collins, F., Cooper, L., Coppettiers, W., Denys, B., Drinkwater, R. D., Easterday, K., Elduque, C., Ennis, S., Erhardt, G., Ferretti, L., Flavin, N., Gao, Q., Georges, M., Gurung, R., Harlizius, B., Hawkins, G., Hetzel, J., Hirano, T., Hulme, D., Jorgensen, C., Kessler, M., Kirkpatrick, B. W., Konfortov, B., Kostia, S., Kuhn, C., Lenstra, J. A., Leveziel, H., Lewin, H. A., Leyhe, B., Lil, L., Burriel, I. Martin, McGraw, R. A., Miller, J. R., Moody, D. E., Moore, S. S., Nakane, S., Nijman, I. J., Olsaker, I., Pomp, D., Rando, A., Ron, M., Shalom, A., Teale, A. J., Thieven, U., Urquhart, B. G. D., Vage, D. -I., Van de Weghe, A., Varvio, S., Velmala, R., Vilkki, J., Weikard, R., Woodside, C., Womack, J. E., Zanotti, M., and Zaragoza, P.

Published
1997
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28. Pre‐ and post‐puberty expression of genes and proteins in the uterus of Bos indicus heifers: the luteal phase effect post‐puberty.

Author

Fortes, M. R. S., Zacchi, L. F., Nguyen, L. T., Raidan, F., Weller, M. M. D. C. A., Choo, J. J. Y., Reverter, A., Rego, J. P. A., Boe‐Hansen, G. B., Porto‐Neto, L. R., Lehnert, S. A., Cánovas, A., Schulz, B. L., Islas‐Trejo, A., Medrano, J. F., Thomas, M. G., and Moore, S. S.

Subjects
ZEBUS, PUBERTY, RNA sequencing, GENE expression, TRANSCRIPTOMES, CATTLE
Abstract

Summary: Progesterone signaling and uterine function are crucial in terms of pregnancy establishment. To investigate how the uterine tissue and its secretion changes in relation to puberty, we sampled tissue and uterine fluid from six pre‐ and six post‐pubertal Brahman heifers. Post‐pubertal heifers were sampled in the luteal phase. Gene expression of the uterine tissue was investigated with RNA‐sequencing, whereas the uterine fluid was used for protein profiling with mass spectrometry. A total of 4034 genes were differentially expressed (DE) at a nominal P‐value of 0.05, and 26 genes were significantly DE after Bonferroni correction (P < 3.1 × 10−6). We also identified 79 proteins (out of 230 proteins) that were DE (P < 1 × 10−5) in the uterine fluid. When we compared proteomics and transcriptome results, four DE proteins were identified as being encoded by DE genes: OVGP1, GRP, CAP1 and HBA. Except for CAP1, the other three had lower expression post‐puberty. The function of these four genes hypothetically related to preparation of the uterus for a potential pregnancy is discussed in the context of puberty. All DE genes and proteins were also used in pathway and ontology enrichment analyses to investigate overall function. The DE genes were enriched for terms related to ribosomal activity. Transcription factors that were deemed key regulators of DE genes are also reported. Transcription factors ZNF567,ZNF775,RELA,PIAS2,LHX4,SOX2,MEF2C,ZNF354C,HMG20A,TCF7L2,ZNF420,HIC1,GTF3A and two novel genes had the highest regulatory impact factor scores. These data can help to understand how puberty influences uterine function. [ABSTRACT FROM AUTHOR]

Published
2018
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29. Reliability of molecular breeding values for Warner-Bratzler shear force and carcass traits of beef cattle - An independent validation study

Author

Wu, X-L., Basarab, J. A., Wang, Z., Miller, S. P., Moore, S. S., Aalhus, J. L., Sun, C., Okut, H., Bauck, S., Woodward, B. W., Plastow, G., and Akanno, E. C.

Abstract

Interest in genetic improvement of carcass and tenderness traits of beef cattle using genome-based selection (GS) and marker-assisted management programs is increasing. The success of such a program depends on the presence of linkage disequilibrium between the observed markers and the underlying QTL as well as on the relationship between the discovery, validation, and target populations. For molecular breeding values (MBV) predicted for a target population using SNP markers, reliabilities of these MBV can be obtained from validation analyses conducted in an independent population distinct from the discovery set. The objective of this study was to test MBV predicted for carcass and tenderness traits of beef cattle in a Canadian-based validation population that is largely independent of a United States-based discovery set. The discovery data set comprised of genotypes and phenotypes from > 2,900 multibreed beef cattle while the validation population consisted of 802 crossbred feeder heifers and steers. A bivariate animal model that fitted actual phenotype and MBV was used for validation analyses. The reliability of MBV was defined as square of the genetic correlation (R-g(2)) that represents the proportion of the additive genetic variance explained by the SNP markers. Several scenarios involving different starting marker panels (384, 3K, 7K, and 50K) and different sets of SNP selected to compute MBV (50, 100, 200, 375, 400, 600, and 800) were investigated. Validation results showed that the most reliable MBV (R-g(2)) were 0.34 for HCW, 0.36 for back fat thickness, 0.28 for rib eye area, 0.30 for marbling score, 0.25 for yield grade, and 0.38 for Warner-Bratzler shear force across the different scenarios explored. The results indicate that smaller SNP panels can be developed for use in genetic improvement of beef carcass and tenderness traits to exploit GS benefits.

Published
2014

30. A marker-derived gene network reveals the regulatory role of PPARGC1A, HNF4G, and FOXP3 in intramuscular fat deposition of beef cattle

Author

RAMAYO CALDAS, Yuliaxis, Fortes, M. R. S., Hudson, N. J., Porto-Neto, L. R., Bolormaa, S., Barendse, W., Kelly, M., Moore, S. S., Goddard, M. E., Lehnert, S. A., Reverter, A., Génétique Animale et Biologie Intégrative (GABI), AgroParisTech-Institut National de la Recherche Agronomique (INRA), Food Futures Flagship - Animal Food and Health Sciences, Commonwealth Scientific and Industrial Research Organisation [Canberra] (CSIRO), Facultat de Veterinària, Departament de Ciencia Animal i dels Aliments, Universitat Autònoma de Barcelona [Barcelona] (UAB), Queensland Alliance for Agriculture and Food Innovation, Center for Animal Science, University of Queensland [Brisbane], Victorian Department of Environment and Primary Industries, Univ Melbourne, Sch Land & Environm, Parkville, Vic 3010, Australia, Université Paris Diderot - Paris 7 (UPD7), Victorian Dept Environm & Primary Ind, Bundoora, Vic 3083, Australia, Spanish Ministerio de Educacion [AP2008-01450], European Union [267196], European Project: 267196, Institut National de la Recherche Agronomique (INRA)-AgroParisTech, and Universitat Autònoma de Barcelona (UAB)

Subjects
[SDV]Life Sciences [q-bio], association weight matrix, fat deposition, beef quality, genomewide association study, marbling
Abstract

High intramuscular fat (IMF) awards price premiums to beef producers and is associated with meat quality and flavor. Studying gene interactions and pathways that affect IMF might unveil causative physiological mechanisms and inform genomic selection, leading to increased accuracy of predictions of breeding value. To study gene interactions and pathways, a gene network was derived from genetic markers associated with direct measures of IMF, other fat phenotypes, feedlot performance, and a number of meat quality traits relating to body conformation, development, and metabolism that might be plausibly expected to interact with IMF biology. Marker associations were inferred from genomewide association studies (GWAS) based on high density genotypes and 29 traits measured on 10,181 beef cattle animals from 3 breed types. For the network inference, SNP pairs were assessed according to the strength of the correlation between their additive association effects across the 29 traits. The co-association inferred network was formed by 2,434 genes connected by 28,283 edges. Topological network parameters suggested a highly cohesive network, in which the genes are strongly functionally interconnected. Pathway and network analyses pointed towards a trio of transcription factors (TF) as key regulators of carcass IMF: PPARG-C1A, HNF4G, and FOXP3. Importantly, none of these genes would have been deemed as significantly associated with IMF from the GWAS. Instead, a total of 313 network genes show significant co-association with the 3 TF. These genes belong to a wide variety of biological functions, canonical pathways, and genetic networks linked to IMF-related phenotypes. In summary, our GWAS and network predictions are supported by the current literature and suggest a cooperative role for the 3 TF and other interacting genes including CAPN6, STC2, MAP2K4, EYA1, COPS5, XKR4, NR2E1, TOX, ATF1, ASPH, TGS1, and TTPA as modulators of carcass and meat quality traits in beef cattle.

Published
2014

31. The effect of taurine supplementation to a plant‐based diet for barramundi (Lates calcarifer) with varying methionine content.

Author

Poppi, D. A., Moore, S. S., and Glencross, B. D.

Subjects
*TAURINE, *GIANT perch, *DIETARY supplements, *METHIONINE, *FISH feeds
Abstract

Abstract: The effect of variable taurine inclusion (Tau) (1 g/kg DM to 15 g/kg DM) in the diet of juvenile barramundi (Lates calcarifer) on growth and nutrient utilization was investigated at three levels of dietary methionine (Met) supplementation. Diets were fed to juvenile barramundi (starting weight: 26.8 g) twice daily under a restricted pair‐fed regime for a period of 42 days. No significant effect of dietary Tau supply on growth or nutrient utilization was observed at any level of Met inclusion. Numerical variations suggested a positive effect of Tau provision at the mid‐level of supplementation (6–8 g/kg DM). The best‐fit response model (5‐SKM), fitted to the percentage body weight gain data of fish fed diets with an adequate level of Met, suggested a relatively weak pattern of response (R2 = 0.183) and predicted a Tau requirement of 5.47 g/kg DM (9.64 g/kg CP) similar to that reported for several other species. It was concluded that taurine appears to be conditionally essential to barramundi, whereby provision in the diet when sulphur amino acid supply is insufficient to meet biosynthetic demands may be beneficial, but that the predicted requirement is likely reasonably accurate for use as a minimum level of inclusion. [ABSTRACT FROM AUTHOR]

Published
2018
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32. Adipose tissue proteomic analyses to study puberty in Brahman heifers.

Author

Nguyen, L T, Zacchi, L F, Schulz, B L, Moore, S S, and Fortes, M R S

Subjects
ADIPOSE tissues, PROTEOMICS, HEIFERS, PUBERTY, ENDOCRINE glands, ESTROGEN, ZEBUS, CATTLE
Abstract

The adipose tissue has been recognized as an active endocrine organ which can modulate numerous physiological processes such as metabolism, appetite, immunity, and reproduction. The aim of this study was to look for differentially abundant proteins and their biological functions in the abdominal adipose tissue between pre- and postpubertal Brahman heifers. Twelve Brahman heifers were divided into 2 groups and paired on slaughter day. Prepubertal heifers had never ovulated and postpubertal heifers were slaughtered on the luteal phase of their second estrous cycle. After ensuring the occurrence of puberty in postpubertal heifers, abdominal adipose tissue samples were collected. Mass spectrometry proteomic analysis identified 646 proteins and revealed that 171 proteins showed differential abundance in adipose tissue between the pre- and postpuberty groups (adjusted P-value < 0.05). Data are available via ProteomeXchange with identifier PXD009452. Using a list of 51 highly differentially abundant proteins as the target (adjusted P-value < 10−5), we found 14 enriched pathways. The results indicated that gluconeogenesis was enhanced when puberty approached. The metabolism of glucose, lipids, and AA in the adipose tissue mainly participated in oxidation and energy supply for heifers when puberty occurred. Our study also revealed the differentially abundant proteins were enriched for estrogen signaling and PI3K-Akt signaling pathways, which are known integrators of metabolism and reproduction. These results suggest new candidate proteins that may contribute to a better understanding of the signaling mechanisms that relate adipose tissue function to puberty. Protein–protein interaction network analysis identified 4 hub proteins that had the highest degrees of connection: PGK1, ALDH5A1, EEF2, and LDHB. Highly connected proteins are likely to influence the functions of all differentially abundant proteins identified, directly or indirectly. [ABSTRACT FROM AUTHOR]

Published
2018
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33. Development and validation of a small SNP panel for feed efficiency in beef cattle.

Author

Abo-Ismail, M K, Lansink, N, Akanno, E, Karisa, B K, Crowley, J J, Moore, S S, Bork, E, Stothard, P, Basarab, J A, and Plastow, G S

Subjects
BEEF cattle, CATTLE genetics, CATTLE breeding, SINGLE nucleotide polymorphisms, LIVESTOCK
Abstract

The objective of this study was to develop and validate a customized cost-effective single nucleotide polymorphism (SNP) panel for genetic improvement of feed efficiency in beef cattle. The SNPs identified in previous association studies and through extensive analysis of candidate genomic regions and genes, were screened for their functional impact and allele frequency in Angus and Hereford breeds used as validation candidates for the panel. Association analyses were performed on genotypes of 159 SNPs from new samples of Angus (n = 160), Hereford (n = 329), and Angus-Hereford crossbred (n = 382) cattle using allele substitution and genotypic models in ASReml. Genomic heritabilities were estimated for feed efficiency traits using the full set of SNPs, SNPs associated with at least one of the traits (at P ≤ 0.05 and P < 0.10), as well as the Illumina bovine 50K representing a widely used commercial genotyping panel. A total of 63 SNPs within 43 genes showed association (P ≤ 0.05) with at least one trait. The minor alleles of SNPs located in the GHR and CAST genes were associated with decreasing effects on residual feed intake (RFI) and/or RFI adjusted for backfat (RFIf), whereas minor alleles of SNPs within MKI67 gene were associated with increasing effects on RFI and RFIf. Additionally, the minor allele of rs137400016 SNP within CNTFR was associated with increasing average daily gain (ADG). The SNPs genotypes within UMPS, SMARCAL, CCSER1, and LMCD1 genes showed significant over-dominance effects whereas other SNPs located in SMARCAL1, ANXA2, CACNA1G, and PHYHIPL genes showed additive effects on RFI and RFIf. Gene enrichment analysis indicated that gland development, as well as ion and cation transport are important physiological mechanisms contributing to variation in feed efficiency traits. The study revealed the effect of the Jak-STAT signaling pathway on feed efficiency through the CNTFR, OSMR, and GHR genes. Genomic heritability using the 63 significant (P ≤ 0.05) SNPs was 0.09, 0.09, 0.13, 0.05, 0.05, and 0.07 for ADG, dry matter intake, midpoint metabolic weight, RFI, RFIf, and backfat, respectively. These SNPs contributed to genetic variation in the studied traits and thus can potentially be used or tested to generate cost-effective molecular breeding values for feed efficiency in beef cattle. [ABSTRACT FROM AUTHOR]

Published
2018
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34. Global differential gene expression in the pituitary gland and the ovaries of pre- and postpubertal Brahman heifers.

Author

Nguyen, L. T., Reverter, A., Cánovas, A., Venus, B., Islas-Trejo, A., Porto-Neto, L. R., Lehnert, S. A., Medrano, J. F., Moore, S. S., and Fortes, M. R. S.

Subjects
OVARIAN diseases, GENE expression, PITUITARY gland, HEIFERS, AGE groups, ZEBUS, RNA sequencing
Abstract

To understand genes, pathways, and networks related to puberty, we characterized the transcriptome of two tissues: the pituitary gland and ovaries. Samples were harvested from pre- and postpubertal Brahman heifers (same age group). Brahman heifers (Bos indicus) are older at puberty compared with Bos taurus, a productivity issue. With RNA sequencing, we identified differentially expressed (DEx) genes and important transcription factors (TF) and predicted coexpression networks. The number of DEx genes detected in the pituitary gland was 284 (P < 0.05), and VWC2L was the most DEx gene (fold change = 4.12, P = 0.01). The gene VWC2L promotes bone mineralization through transforming growth factor-β (TGFβ) signaling. Further studies of the link between bone mineralization and puberty could target VWC2L. In ovaries, 3,871 genes were DEx (P < 0.05). Four highly DEx genes were noteworthy for their function: SLC6A13 (a γ-aminobutyric acid [GABA] transporter), OXT (oxytocin), and NPY (neuropeptide Y) and its receptor NPY2R. These genes had higher ovarian expression in postpubertal heifers. The GABA and its receptors and transporters were expressed in the ovaries of many mammals, suggesting a role for this pathway beyond the brain. The OXT pathway has been known to influence the timing of puberty in rats, via modulation of GnRH. The effects of NPY at the hypothalamus, pituitary gland, and ovaries have been documented. Neuropeptide Y and its receptors are known factors in the release of GnRH, similar to OXT and GABA, although their roles in ovarian tissue are less clear. Pathways previously related to puberty such as TGFβ signaling (P = 6.71 × 10-5), Wnt signaling (P = 4.1 × 10-2), and peroxisome proliferator-activated receptor (PPAR) signaling (P = 4.84 × 10-2) were enriched in our data set. Seven genes were identified as key TF in both tissues: HIC2, ZIC4, ZNF219, ZSCAN26, LHX1, OLIG1, and a novel gene. An ovarian subnetwork created with TF and significant ovarian DEx genes revealed five zinc fingers as regulators: ZNF507, ZNF12, ZNF512, ZNF184, and ZNF432. Recent work of hypothalamic gene expression also pointed to zinc fingers as TF for bovine puberty. Although some zinc fingers may be ubiquitously expressed, the identification of DEx genes in common across tissues points to key regulators of puberty. The hypothalamus and pituitary gland had eight DEx genes in common. The hypothalamus and ovaries had 89 DEx genes in common. The pituitary gland and ovaries had 48 DEx genes in common. Our study confirmed the complexity of puberty and suggested further investigation on genes that code zinc fingers. [ABSTRACT FROM AUTHOR]

Published
2017
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35. Transcriptome analyses identify five transcription factors differentially expressed in the hypothalamus of post- versus prepubertal Brahman heifers.

Author

Fortes, M. R. S., Nguyen, L. T., Weller, M. M. D. C. A., Cánovas, A., Islas-Trejo, A., Porto-Neto, L. R., Reverter, A., Lehnert, S. A., Boe-Hansen, G. B., Thomas, M. G., Medrano, J. F., and Moore, S. S.

Subjects
CATTLE breeding, TRANSCRIPTION factors, HYPOTHALAMUS, PUBERTY, ANIMAL mutation, GENE expression, RNA sequencing, ZEBUS, CATTLE
Abstract

Puberty onset is a developmental process influenced by genetic determinants, environment, and nutrition. Mutations and regulatory gene networks constitute the molecular basis for the genetic determinants of puberty onset. The emerging knowledge of these genetic determinants presents opportunities for innovation in the breeding of early pubertal cattle. This paper presents new data on hypothalamic gene expression related to puberty in Bos indicus (Brahman) in age- and weight-matched heifers. Six postpubertal heifers were compared with 6 prepubertal heifers using whole-genome RNA sequencing methodology for quantification of global gene expression in the hypothalamus. Five transcription factors (TF) with potential regulatory roles in the hypothalamus were identified in this experiment: E2F8, NFAT5, SIX5, ZBTB38, and ZNF605. These TF genes were significantly differentially expressed in the hypothalamus of postpubertal versus prepubertal heifers and were also identified as significant according to the applied regulatory impact factor metric (P < 0.05). Two of these 5 TF, ZBTB38 and ZNF605, were zinc fingers, belonging to a gene family previously reported to have a central regulatory role in mammalian puberty. The SIX5 gene belongs to the family of homologues of Drosophila sine oculis (SIX) genes implicated in transcriptional regulation of gonadotrope gene expression. Tumor-related genes such as E2F8 and NFAT5 are known to affect basic cellular processes that are relevant in both cancer and developmental processes. Mutations in NFAT5 were associated with puberty in humans. Mutations in these TF, together with other genetic determinants previously discovered, could be used in genomic selection to predict the genetic merit of cattle (i.e., the likelihood of the offspring presenting earlier than average puberty for Brahman). Knowledge of key mutations involved in genetic traits is an advantage for genomic prediction because it can increase its accuracy. [ABSTRACT FROM AUTHOR]

Published
2016
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36. Accuracy of genomic predictions for feed efficiency traits of beef cattle using 50K and imputed HD genotypes.

Author

Lu, D., Akanno, E. C., Crowley, J. J., Schenkel, F., Li, H., De Pauw, M., Moore, S. S., Wang, Z., Li, C., Stothard, P., Plastow, G., Miller, S. P., and Basarab, J. A.

Subjects
CATTLE genetics, BEEF cattle breeding, GENETIC markers, BAYESIAN analysis, PEARSON correlation (Statistics), CATTLE
Abstract

The accuracy of genomic predictions can be used to assess the utility of dense marker genotypes for genetic improvement of beef efficiency traits. This study was designed to test the impact of genomic distance between training and validation populations, training population size, statistical methods, and density of genetic markers on prediction accuracy for feed efficiency traits in multibreed and crossbred beef cattle. A total of 6,794 beef cattle data collated from various projects and research herds across Canada were used. Illumina BovineSNP50 (50K) and imputed Axiom Genome-Wide BOS 1 Array (HD) genotypes were available for all animals. The traits studied were DMI, ADG, and residual feed intake (RFI). Four validation groups of 150 animals each, including Angus (AN), Charolais (CH), Angus-Hereford crosses (ANHH), and a Charolais-based composite (TX) were created by considering the genomic distance between pairs of individuals in the validation groups. Each validation group had 7 corresponding training groups of increasing sizes (n = 1,000, 1,999, 2,999, 3,999, 4,999, 5,998, and 6,644), which also represent increasing average genomic distance between pairs of individuals in the training and validations groups. Prediction of genomic estimated breeding values (GEBV) was performed using genomic best linear unbiased prediction (GBLUP) and Bayesian method C (BayesC). The accuracy of genomic predictions was defined as the Pearson's correlation between adjusted phenotype and GEBV (r), unless otherwise stated. Using 50K genotypes, the highest average r achieved in purebreds (AN, CH) was 0.41 for DMI, 0.34 for ADG, and 0.35 for RFI, whereas in crossbreds (ANHH, TX) it was 0.38 for DMI, 0.21 for ADG, and 0.25 for RFI. Similarly, when imputed HD genotypes were applied in purebreds (AN, CH), the highest average r was 0.14 for DMI, 0.15 for ADG, and 0.14 for RFI, whereas in crossbreds (ANHH, TX) it was 0.38 for DMI, 0.22 for ADG, and 0.24 for RFI. The r of GBLUP predictions were greatly reduced with increasing genomic average distance compared to those from BayesC predictions. The results indicate that 50K genotypes, used with BayesC, are more effective for predicting GEBV in purebred cattle. Imputed HD genotypes found utility when dealing with composites and crossbreds. Formulation of a fairly large training set for genomic predictions in beef cattle should consider the genomic distance between the training and target populations. [ABSTRACT FROM AUTHOR]

Published
2016
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37. Prospecting major genes in dairy buffaloes.

Author

de Camargo, G. M. F., Aspilcueta-Borquis, R. R., Fortes, M. R. S., Porto-Neto, R., Cardoso, D. F., Santos, D. J. A., Lehnert, S. A., Reverter, A., Moore, S. S., and Tonhati, H.

Subjects
WATER buffalo, GENE expression, ANIMAL diversity, GENOMES, WATER buffalo milk yield
Abstract

Background: Asian buffaloes (Bubalus bubalis) have an important socio-economic role. The majority of the population is situated in developing countries. Due to the scarce resources in these countries, very few species-specific biotechnology tools exist and a lot of cattle-derived technologies are applied to buffaloes. However, the application of cattle genomic tools to buffaloes is not straightforward and, as results suggested, despite genome sequences similarity the genetic polymorphisms are different. Results: The first SNP chip genotyping platform designed specifically for buffaloes has recently become available. Herein, a genome-wide association study (GWAS) and gene network analysis carried out in buffaloes is presented. Target phenotypes were six milk production and four reproductive traits. GWAS identified SNP with significant associations and suggested candidate genes that were specific to each trait and also genes with pleiotropic effect, associated to multiple traits. Conclusions: Network predictions of interactions between these candidate genes may guide further molecular analyses in search of disruptive mutations, help select genes for functional experiments and evidence metabolism differences in comparison to cattle. The cattle SNP chip does not offer an optimal coverage of buffalo genome, thereafter the development of new buffalo-specific genetic technologies is warranted. An annotated reference genome would greatly facilitate genetic research, with potential impact to buffalo-based dairy production. [ABSTRACT FROM AUTHOR]

Published
2015
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38. Reliability of molecular breeding values for Warner-Bratzler shear force and carcass traits of beef cattle - An independent validation study.

Author

Akanno, E. C., Plastow, G., Woodward, B. W., Bauck, S., Okut, H., Wu, X-L., Sun, C., Aalhus, J. L., Moore, S. S., Miller, S. P., Wang, Z., and Basara, J. A.

Subjects
BEEF cattle breeding, BEEF carcasses, ARTIFICIAL selection of animals, CATTLE genetics, BEEF cattle, SINGLE nucleotide polymorphisms
Abstract

Interest in genetic improvement of carcass and tenderness traits of beef cattle using genome-based selection (GS) and marker-assisted management programs is increasing. The success of such a program depends on the presence of linkage disequilibrium between the observed markers and the underlying QTL as well as on the relationship between the discovery, validation, and target populations. For molecular breeding values (MBV) predicted for a target population using SNP markers, reliabilities of these MBV can be obtained from validation analyses conducted in an independent population distinct from the discovery set. The objective of this study was to test MBV predicted for carcass and tenderness traits of beef cattle in a Canadian-based validation population that is largely independent of a United States-based discovery set. The discovery data set comprised of genotypes and phenotypes from >2,900 multibreed beef cattle while the validation population consisted of 802 crossbred feeder heifers and steers. A bivariate animal model that fitted actual phenotype and MBV was used for validation analyses. The reliability of MBV was defined as square of the genetic correlation (R²g) that represents the proportion of the additive genetic variance explained by the SNP markers. Several scenarios involving different starting marker panels (384, 3K, 7K, and 50K) and different sets of SNP selected to compute MBV (50, 100, 200, 375, 400, 600, and 800) were investigated. Validation results showed that the most reliable MBV (R²g) were 0.34 for HCW, 0.36 for back fat thickness, 0.28 for rib eye area, 0.30 for marbling score, 0.25 for yield grade, and 0.38 for Warner-Bratzler shear force across the different scenarios explored. The results indicate that smaller SNP panels can be developed for use in genetic improvement of beef carcass and tenderness traits to exploit GS benefits. [ABSTRACT FROM AUTHOR]

Published
2014
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39. Genetic and phenotypic parameters for carcass and meat quality traits in commercial crossbred pigs.

Author

Miar, Y., Plastow, G. S., Moore, S. S., Manafiazar, G., Charagu, P., Kemp, R. A., Van Haandel, B., Huisman, A. E., Zhang, C. Y., McKay, R. M., Bruce, H. L., and Wang, Z.

Subjects
SWINE carcasses, MEAT quality, SWINE crossbreeding, SWINE genetics, HERITABILITY
Abstract

Pork quality and carcass characteristics are now being integrated into swine breeding objectives because of their economic value. Understanding the genetic basis for these traits is necessary for this to be accomplished. The objective of this study was to estimate phenotypic and genetic parameters for carcass and meat quality traits in 2 Canadian swine populations. Data from a genomic selection study aimed at improving meat quality with a mating system involving hybrid Landrace x Large White and Duroc pigs were used to estimate heritabilities and phenotypic and genetic correlations among them. Data on 2,100 commercial crossbred pigs for meat quality and carcass traits were recorded with pedigrees compromising 9,439 animals over 15 generations. Significant fixed effects (company, sex, and slaughter batch), covariates (cold carcass weight and slaughter age), and random additive and common litter effects were fitted in the models. A series of pairwise bivariate analyses were implemented in ASReml to estimate phenotypic and genetic parameters. Heritability estimates (±SE) for carcass traits were moderate to high and ranged from 0.22 ± 0.08 for longissimus dorsi muscle area to 0.63 ± 0.04 for trimmed ham weight, except for finnness, which was low. Heritability estimates (±SE) for meat quality traits varied from 0.10 ± 0.04 to 0.39 ± 0.06 for the Minolta b* of ham quadriceps femoris muscle and shear force, respectively. Generally, most of the genetic correlations were significant (P < 0.05) and ranged from low (0.18 ± 0.07) to high (-0.97 ± 0.35). There were high negative genetic correlations between drip loss with pH and shear force and a positive correlation with cooking loss. Genetic correlations between carcass weight (both hot and cold) with carcass marbling were highly positive. It was concluded that selection for increasing primal and subprimal cut weights with better pork quality may be possible. Furthermore, the use of pH is confirmed as an indicator for pork water-holding capacity and cooking loss. The heritabilities of carcass and pork quality traits indicated that they can be improved using traditional breeding methods and genomic selection, respectively. The estimated genetic parameters for carcass and meat quality traits can be incorporated into the breeding programs that emphasize product quality in these Canadian swine populations. [ABSTRACT FROM AUTHOR]

Published
2014
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40. Estimation of genetic and phenotypic parameters for ultrasound and carcass merit traits in crossbred beef cattle.

Author

Miar, Y., Plastow, G. S., Bruce, H. L., Moore, S. S., Durunna, O. N., Nkrumah, J. D., and Wang, Z.

Subjects
CATTLE crossbreeding, BEEF cattle, GENETIC correlations, CATTLE carcasses, HERITABILITY, CATTLE population genetics, CATTLE
Abstract

Copyright of Canadian Journal of Animal Science is the property of Canadian Science Publishing and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published
2014
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41. Candidate genes and biological pathways associated with carcass quality traits in beef cattle.

Author

Karisa, B. K., Thomson, J., Z. Wang, Bruce, H. L., Plastow, G. S., and Moore, S. S.

Subjects
BEEF cattle, CATTLE genetics, CATTLE carcasses, QUANTITATIVE research, CATTLE physiology, BODY weight, SINGLE nucleotide polymorphisms
Abstract

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Published
2013
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42. Candidate genes and single nucleotide polymorphisms associated with variation in residual feed intake in beef cattle.

Author

Karisa, B. K., Thomson, J., Wang, Z., Stothard, P., Moore, S. S., and Plastow, G. S.`

Subjects
SINGLE nucleotide polymorphisms, BEEF cattle feeding & feeds, CATTLE, ANIMAL variation, DRY matter in animal nutrition, CATTLE growth, BIOENERGETICS
Abstract

The candidate gene approach was used to identify genes associated with residual feed intake (RFI) in beef steers. The approach uses prior knowledge of gene functions to predict their biological role in the variation observed in a trait. It is suited to identify genes associ-ated with complex traits where each gene has a relatively small effect. First, positional candidate genes were identi-fied within the genomic positions of previously reported QTL associated with component traits related to RFI such as dry matter intake (DMI), growth, feed conversion ratio (FCR), average daily gain (ADG), and energy balance. Secondly, the positional candidate genes were prioritized into functional candidate genes according to their bio-logical functions and their relationship with the biological processes associated with RFI including carbohydrate, fat and protein metabolism, thermoregulation, immunity and muscle activity. Single nucleotide polymorphisms (SNPs) located within the functional candidate genes were identified using mRNA sequences and prioritized into functional classes such as non-synonymous (nsS-NP), synonymous (sSNP) or intronic SNP. A total of 117 nsSNP were considered as functional SNP and genotyped in steers at the University of Alberta ranch in Kinsella. Multiple marker association analysis in ASReml was performed using RFI data obtained from 531 beef steers. Twenty-five SNP were significantly associated with RFI (P < 0.05) accounting for 19.7% of the phenotypic varia-tion. Using SIFT program to predict the effect of the SNP on the function of the corresponding protein, 3 of the 25 SNP were predicted to cause a significant effect on pro-tein function (P < 0.05). One of the 3 SNP was located in the GHR gene and was also associated with a significant effect on the tertiary structure of the GHR protein (P < 0.05) as modeled using SWISSModel software. Least square means for each genotype were estimated and an over-dominance effect was observed for the SNP located in the GHR, CAST, ACAD 11 and UGT3A1 genes. In addi-tion, 2 other SNP showed a dominance effect and 3 genes had an additive effect. Gene network analysis performed in Ingenuity pathway analysis (1PA) software (Ingenuity Systems, www.ingenuity.com) indicated that the signifi-cant genes were involved in biological pathways such as lipid, protein and energy metabolism, electron transport and membrane signaling. The genes in this study, if vali-dated in other beef cattle populations, may be useful for marker assisted selection for feed efficiency. [ABSTRACT FROM AUTHOR]

Published
2013
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43. Impact of selection for residual feed intake on breeding soundness and reproductive performance of bulls on pasture-based multisire mating.

Author

Colazo, M. G., Basarab, J. A., Goonewardene, L. A., Ambrose, D. J., Marques, E., Plastow, G., Miller, S. P., and Moore, S. S.

Subjects
BEEF cattle breeding, BULLS, BEEF cattle feeding & feeds, PASTURE animals, SPERM motility, PERFORMANCE evaluation, REPRODUCTION
Abstract

There is concern in the beef industry that selecting bulls for feed efficiency based on residual feed intake (RFI) may have a negative impact on bull repro-ductive performance and fertility. Here we investigated the impact of selection of bulls for low RFI on breeding soundness evaluation (BSE), reproductive performance, and fertility of bulls under natural service in multisire mating groups on pasture. Of the 412 RFI-tested bulls available, 98 (23.8%) were culled for performance, type, temperament, or other reasons, and 88 (21.4%) were culled for failing BSE, for an overall cull rate of 45.1%. From among the 314 bulls subjected to BSE, 32 (10.2%), 20 (6.4%), and 36 (11.4%) were culled for poor feet and legs, scrotal circumference, and semen quality, respectively. The BSE traits were not different (P > 0.10) between bulls categorized as either inefficient (+RFI) or efficient (-RFI), but the proportion of bulls that failed to meet the 60% minimum sperm motility requirement tended (P = 0.07) to be greater in the -RFI group than in the +RFI group (10.2% vs. 4.4%, respectively). In a subpopulation of 115 bulls, individual progressive spenn motility was greater {P < 0.05) in +RFI (85%) than -RFI (80%) bulls. A multisire natural mating experiment was conducted during 2 consecutive breeding seasons (2006 to 2007 and 2007 to 2008) using 18 +RFI and 18 -RFI bulls. The overall calving rate (calves born/cows exposed) was 72.9%. Mean number of progeny per sire was significantly greater (P <0.01) in -RFI bulls (18.3) than in +RFI bulls (11.8). Selection for feed efficiency based on RFI appears to have no detrimental impact on reproductive performance and fertility in beef bulls bred in multisire groups on pasture. However, the decreased sperm motility and the greater number of progeny per sire associated with -RFI status need further investigation. [ABSTRACT FROM AUTHOR]

Published
2012

44. Transcriptome analysis of subcutaneous adipose tissues in beef cattle using 3' digital gene expression-tag profiling.

Author

Jin, W., Olson, E. N., Moore, S. S., Basarab, J. A., Basu, U., and Guan, L. L.

Subjects
SUBCUTANEOUS surgery, ADIPOSE tissues, BEEF cattle, CATTLE genetics, CATTLE breeding, MOLECULAR immune response
Abstract

The molecular mechanisms that regulate fat deposition in bovine adipose tissue have not been well studied. To elucidate the genes and gene networks involved in bovine fat development, transcriptional profiles of backfat (BF) tissues from Hereford x Aberdeen Angus (HEAN, a = 6) and Charolais x Red Angus (CHRA, a = 6) steers with high or low BF thickness were characterized by digital gene expression-tag profiling. Approximately 9.8 to 21.9 million tags were obtained for each library, and a total of 18,034 genes were identified. In total, 650 genes were found to be differentially expressed, with a greater than 1.5-fold difference between the 2 crossbreds (Benjamini-Hochberg false discovery rate ~ 0.05). The majority of differentially expressed genes that were more highly expressed in CHRA vs. HEAN were associated with development, whereas the differentially expressed genes with greater expression in HEAN vs. CHRA were overrepresented in biological processes such as metabolism and immune response. Thirty-six and 152 differentially expressed genes were detected between animals with high (n = 3) and low (n = 3) BF thickness in HEAN and CHRA, respectively (Benjamini-Hochberg false discovery rate ≤0.05). The differentially expressed genes between high and low groups in CHRA were related to cell proliferation and development processes. In addition, lipid metabolism was 1 of the top 5 molecular and cellular functions identified in both crossbreds. Ten and 17 differentially expressed genes were found to be involved in fat metabolism in HEAN and CHRA, respectively. Genes associated with obesity, such as PTX3 (pentraxin 3, long) and SERPINE1 (serpin peptidase inhibitor, dade E, member 1), were more highly expressed (P < 0.05) in the subset of CHRA animals with greater BF thickness. Our study revealed that the expression patterns of genes in BF tissues differed depending on the genetic background of the cattle. [ABSTRACT FROM AUTHOR]

Published
2012
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45. Genetic parameters and genotype by environment interaction for feed efficiency traits in steers fed grower and finisher diets.

Author

Durunna, O. N., Plastow, G., Mujibi, F. D. N., Grant, J., Mah, J., Basarab, J. A., Okine, E. K., Moore, S. S., and Wang, Z.

Subjects
ANIMAL feeds, PHENOTYPES, ANIMAL genetics, BEEF cattle, BEEF industry, ENVIRONMENTAL engineering
Abstract

This study set out to examine the genetic parameters and genetic correlations of feed efficiency traits in steers (n = 490) fed grower or finisher diets in two feeding periods. A bivariate model was used to estimate phenotypic and genetic parameters using steers that received the grower and finisher diets in successive feeding periods while a repeated animal model was used to estimate the permanent environmental effects. Genetic correlations between the grower-fed and finisher-fed regimes were 0.50 ± 0.48 and 0.78 ± 0.43 for RFI and G:F, respectively. The moderate genetic correlation between the two feeding regimes may indicate the presence of genotype-by-environment interaction (GEI) for RFI. Permanent environmental effects (expressed in percentage of phenotypic variance) were detected in the grower-fed steers for ADG (38%), DMI (30%), RFI (18%) and G:F (40%) and also in the finisher-fed steers for ADG (28%), DMI (35%), MWT (23%) and RFI (10%). Heritability estimates were 0.08 ± 0.10 and 0.14 ± 0.15 for the grower-fed steers while 0.42 ± 0.16 and 0.40 ± 17 for the finisher-fed steers for RFI and G:F, respectively. The dependency of the RFI on the feeding regime may have serious implications when selecting animals in the beef industry. Due to higher cost of grains, feed efficiency in the feedlot might be over emphasized while efficiency in the cow herd and the backgrounding segments may have less emphasis. These results may also favor the retention (for subsequent breeding) of cows whose steers were efficient in the feedlot sector. Therefore, comprehensive feeding trials may be necessary in order to provide more insight into the mechanisms surrounding GEI in steers. [ABSTRACT FROM AUTHOR]

Published
2011
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46. Phenotypic and genetic relationships among feeding behavior traits, feed intake and residual feed intake in steers fed grower and finisher diets.

Author

Durunna, O. N., Wang, Z., Basarab, J. A., Okine, E. K., and Moore, S. S.

Subjects
PHENOTYPES, ANIMAL feeding behavior, INGESTION, BEEF cattle, HERITABILITY, REGRESSION analysis, STATISTICAL correlation
Abstract

Data from a 3yr feeding trial data of crossbred steers (n = 331) was used to examine the relationship between feeding behavior traits and feed efficiency in steers fed grower and finisher diets, successively. There were two feeding periods each year whereby the steers were fed a grower diet in the first feeding period (P1) and a finisher diet in the second feeding period (P2). Each feeding period lasted for a minimum of 10 weeks, ad-libitum. In addition to feed intake, records on three measures of feeding behavior (feeding duration (FD), headdown time (HDT) and feeding frequency (FF)) were collected using the GrowSafe feeding system. Residual feed intake (RFI) was calculated by regression, after which the steers were classified as low (< 0.5SD), medium (± 0.5SD) or high (> 0.5SD) from the mean. The steers had greater (P < 0.001) FD, HDT and FF when the grower diet was fed but greater feeding rate (FR) when the finisher diet was fed. Including the measures of feeding behavior as covariates to the feed intake prediction model containing ADG, metabolic mid-weight and ultrasound back-fat accounted for more variation in DMI than models that did not contain these additional parameters. The FD and HDT were significantly different (P < 0.05) among the RFI classes regardless of the feeding period while no differences (P > 0.90) were found for FR among the RFI classes. For the growing period and finishing period, respectively, FD had phenotypic correlations with HDT (0.79, 0.83), FF (0.14, 0.55), DMI (0.38, 0.34) and FR (-0.34, -0.21). Heritability estimates in P1 and P2 for FD, HDT and FF were 0.25 ± 0.16, 0.14 ± 0.11; 0.14 ± 0.15, 0.09 ± 0.10; and 0.56 ± 0.19, 0.59 ± 0.18, respectively. Genetic correlations between P1 and P2 were 0.91 ± 0.26, 0.93 ± 0.37 and 0.94 ± 0.11 for FD, HDT and FF, respectively. The results suggest that it may be appropriate to include feeding behavior traits as covariates to indicate measure(s) of animal activity in the calculation of RFI. Feeding behavior phenotypes were greater during the grower-fed period than the finisher-fed period. During these feeding periods, efficient steers exhibited fewer FF, shorter FD and shorter HDT than inefficient steers. [ABSTRACT FROM AUTHOR]

Published
2011
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47. Associations of marker panel scores with feed intake and efficiency traits in beef cattle using pre-selected single nucleotide polymorphisms.

Author

Mujibi, F. D. N., Nkrumah, J. D., Durunna, O. N., Grant, J. R., Mah, J., Wang, Z., Basarab, J., Plastow, G., Crews, Jr., D. H., and Moore, S. S.

Subjects
ANIMAL genetics research, BEEF cattle breeding, GENETIC engineering, GENETIC polymorphisms, FEED biotechnology, GENETIC markers
Abstract

Because of the moderate heritability and the expense associated with collection of feed intake data, effective selection for residual feed intake (RFI) would be enhanced if marker assisted evaluation were used for accurate estimation of genetic merit. In this study, a suite of genetic markers predictive of RFI, DMI and ADG were pre-selected using single marker regression analysis and the top 100 SNP analyzed further to provide prediction equations for the traits. The data used consisted of 728 spring born beef steers, offspring of a cross between a composite dam line and Angus, Charolais or University of Alberta hybrid bulls. Feed intake data was collected over a 5 yr period with 2 groups (Fall-Winter and Winter-Spring) tested every year. Training and validation data sets were obtained by splitting the data into 2 distinct sets as follows: by randomly splitting the data into training and testing sets based on sire family (split 1) in 5 replicates or by retaining all animals with no known pedigree relationships as the validation set (split 2). A total of 37,959 SNP were analyzed by single marker regression, of which only the top 100 that corresponded to a P-value < 0.002 were retained. The 100 SNP were then analyzed using random regression BLUP (RR-BLUP) and only SNP that were jointly significant (P < 0.05) were included in the final marker panels. The marker effects from the selected panels were used to derive the molecular breeding values (MBV), which were calculated as a weighted sum of the number of copies of the more frequent allele at each SNP locus, weights being the allele substitution effects. The correlation between MBV and phenotype represented the accuracy of prediction. For all traits evaluated, accuracy across breeds was low, ranging between 0.007 and 0.414. Accuracy was least in data split 2, where the validation individuals had no pedigree relationship with animals in the training data. Given the low predictive ability observed, a large number of individuals may be needed for prediction when using such an admixed population. Further, these results suggest that breed composition of the target population where the marker panels are likely to be used should be an important consideration when developing prediction equations across breeds, especially where an admixed population is used as the training dataset. [ABSTRACT FROM AUTHOR]

Published
2011
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48. Accuracy of genomic breeding values for residual feed intake in crossbred beef cattle.

Author

Mujibi, F. D. N., Nkrumah, J. D., Durunna, O. N., Stothard, P., Mah, J., Wang, Z., Basarab, J., Plastow, G., Crews, Jr., D. H., and Moore, S. S.

Subjects
ANIMAL genetics research, BEEF cattle breeding, GENETIC engineering, GENETIC polymorphisms, FEED biotechnology
Abstract

The benefit of using genomic breeding values (GEBV) in predicting ADG, DMI and residual feed intake (RFI) for an admixed population was investigated. Phenotypic data consisting of individual daily feed intake measurements for 721 beef cattle steers tested over 5 yr was available for analysis. The animals used were an admixed population of spring born steers, progeny of a cross between 3 sire breeds and a composite dam line. Training and validation data sets were defined by randomly splitting the data into training and testing datasets based on sire family so that there was no overlap of sires in the 2 sets. The random split was replicated to obtain 5 separate datasets. Two methods (BayesB and random regression BLUP) were used to estimate marker effects and define marker panels and ultimately the GEBV. The accuracy of prediction (the correlation between the phenotypes and GEBV) was compared between SNP panels. Accuracy for all traits was low, ranging from 0.223 to 0.479 for marker panel with 200 SNP, and 0.114 to 0.246 for marker panels with 37,959 SNP, depending on the genomic selection method used. This was less than accuracies observed to polygenic EBV accuracies, which ranged from 0.504 to 0.602. The results obtained from this study demonstrate that the utility of genetic markers for genomic prediction of RFI in beef cattle may be suboptimal. Differences in accuracy were observed between sire breeds when the RR-BLUP method was used, which may imply that the correlations obtained by this method were confounded by the ability of the selected SNP to trace breed differences. This may also suggest that prediction equations derived from such an admixed population may only be useful in populations of similar composition. Given the sample sized used in this study, there is a need for increased feed intake testing if substantially greater accuracies are to be achieved. [ABSTRACT FROM AUTHOR]

Published
2011
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49. Feed efficiency differences and reranking in beef steers fed grower and finisher diets.

Author

Durunna, O. N., Mujibi, F. D. N., Goonewardene, L., Okine, E. K., Basarab, J. A., Wang, Z., and Moore, S. S.

Subjects
FEED utilization efficiency, BEEF cattle, ANIMAL feeding, CATTLE feeding & feeds, GENOTYPE-environment interaction, FEEDLOTS
Abstract

This 3-yr study used 490 steers to determine whether feedlot steers changed their feed efficiency (FE) ranking when fed a grower diet, then a finisher diet. The steers were crossbreds and were between 5 to 7 mo of age. There were 2 feeding periods each year. Within each year, approximately 90 steers had their diet switched from a grower to a finisher diet (feed-swap group), whereas another 90 steers were fed either the grower (grower-fed group) or the finisher (finisher-fed group) diet throughout the feeding trial. Each feeding test lasted for a minimum of 10 wk, and all steers were fed ad libitum. Individual animal feed intakes were collected using the GrowSafe feeding system, and BW were measured every 2 wk. Residual feed intake (RFI), G:F, and Kleiber ratio (KR) were computed at the end of each feeding period. For each measure of efficiency, animals were classified as low, medium, or high based on 0.5 SD from the mean. The majority of steers did not maintain the previous efficiency class in the second period. Approximately 58, 51, and 51% of steers in the feed-swap group, finisher-fed group, and the grower-fed group, respectively, changed their RFI measure by 0.5 SD. A low rank correlation occurred in all test groups but was less in the feed-swap group. Spearman rank correlations between the 2 feeding periods in the feed-swap group were 0.33, 0.20, and 0.31 for RFI, G:F, and KR, respectively. Classifications based on G:F and KR showed that a greater number of steers (P < 0.05) in the feed-swap group did not maintain their FE class from 1 feeding regimen to the other, whereas classification based on RFI did not show any difference (P > 0.05) between the proportions of individuals that changed or maintained their FE class. In the groups without a feed-swap, there was no difference (P > 0.05) in the proportion of steers that changed or maintained the same FE class for all FE measures. Our results suggest that diet type and feeding period affect the FE ranking in beef steers. A feedlot diet is ideal for evaluating the FE potential of steers for feedlot profitability; however, we suggest that tests involving less dense diets should be examined in an effort to understand the relationships between FE and feeder profitability. [ABSTRACT FROM AUTHOR]

Published
2011
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50. Season of testing and its effect on feed intake and efficiency in growing beef cattle.

Author

Mujibi, F. D. N., Moore, S. S., Nkrumah, D. J., Wang, Z., and Basarab, J. A.

Subjects
*ANIMAL feeding, *ANIMAL genetics, *REGRESSION analysis, BEEF cattle behavior
Abstract

This study sought to assess whether residual feed intake (RFI) calculated by regressing feed intake (DMI) on growth rate (ADG) and metabolic mid-BW in 3 different ways led to similar estimates of genetic parameters and variance components for young growing cattle tested for feed intake in fall and winter seasons. A total of 378 beef steers in 5 cohorts were fed a typical high energy feedlot diet and had free-choice access to feed and water. Feed intake data were collected in fall or winter seasons. Climate data were obtained from the University of Alberta Kinsella meteorological station and Vikings AGCM station. Individual animal RFI was obtained by either fitting a regression model to each test group separately (RFIC), fitting a regression model to pooled data consisting of all cohorts but including test group as a fixed effect (RFIO), or fitting a regression to pooled data with test group as a fixed effect but within seasonal (fall-winter or winterspring) groups (RFIS). Two animal models (M1 and M2) that differed by the inclusion of fixed effects of test group or season, respectively, were used to evaluate RFI measurements. Feed intake was correlated with air temperature, relative humidity, solar radiation, and wind speed (-0.26, 0.23, 0.30, -0.14 for fall-winter and 0.31, -0.04, 0.14, 0.16 for winter-spring, respectively), but the nature and magnitude of the correlations were different for the 2 seasons. Single trait direct heritability, model likelihood, direct genetic variance, and EBV accuracy estimates were greatest for RFIC and least for RFIO for both M1 and M2 models. A significant genetic correlation was also observed between RFIO and ADG, but not for RFIC and RFIS. Including a season effect (M2) in the genetic evaluation of RFIO resulted in the smallest heritability, model LogL, EBV accuracy, and largest residual variance estimates. These results, though not conclusive, suggest a possible effect; of seasonality on feed intake and thus feed efficiency. [ABSTRACT FROM AUTHOR]

Published
2010
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