2011 (SBTE) 25th Annual Meeting Proceedings - International ...

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E.H. Bir irgel Junior unior, F.V .V. Meir eirelles elles, E.R. Komninou omninou, et al. 2011. Clinical disorders observed during the first 30 days of life of cloned Zebu calf. Acta Scientiae Veterinariae. 39(Suppl 1): s243 - s252. 31 Mendenhall H.W., O’leary J.A. & Phillips K.O. 1980. The nonstress test: the value of a single acceleration in evaluating the fetus at risk. American Journal Obstettric and Gynecology. 136 (1): 87-91. 32 Miglino M.A., Pereira F.T.V., Visintin J.A., Garcia J.M., Meirelles F.V., Rumpf R., Ambrosio C.E., Papa P.C., Santos T.C., Carvalho A.F., Leiser R. & Carter A.M. 2007. Placentation in cloned cattle: Structure and microvascular architecture. Theriogenology. 68(4): 604-617. 33 Nunes M.T. 2009. O uso da cardiotocografia como método de diagnóstico da ocorrência de sofrimento fetal (hipóxia fetal) durante a vida intra-uterina de fetos da raça Nelore originados por meio da técnica de transferência nuclear de células somáticas adultas - Clonagem. 103f. São Paulo, SP Dissertação (Mestrado em Clínica Veterinária) - Programa de Pósgraduação em Clínica Veterinária, Universidade de São Paulo. 34 Pogliani F.C. 2010. Parâmetros ecodopplercardiográficos em bezerros da raça Nelore originados através de transferência nuclear de células somáticas adultas - Clonagem. 107f. Tese (Doutorado em Ciências) - Programa de Pós-graduação em Clínica Veterinária, Universidade de São Paulo. 35 Poulsen K.P. & McGuirk S.M. 2009. Respiratory Disease of the Bovine Neonate. Veterinary Clinics of North America: Food Animal Practice. 25(1): 121-137. 36 Renard J.P., Chastant S., Chesné P., Richard C., Marchal J., Cordonnier N., Chavatte P. & Vignon X. 1999. Lymphoid hypoplasia and somatic cloning. Lancet. 353(9163): 1489-1491. 37 Santos C.R., Grandi F., Miglino M.A., Meirelles F.V. & Maiorka P.C. 2010. Patologia de neonatos bovinos originados por meio da técnica de transferência nuclear de células somáticas – clonagem. Brazilian Journal Veterinary Research Animal Science. 47(6): 447-453. 38 Sbano J.C.N., Tsutsui J.M., Terra Filho M. & Mathias Junior W. 2004. Papel da ecodopplercardiografia na avaliação da hipertensão arterial pulmonar. Jornal Brasileiro de Pneumologia. 30(1): 89-97. 39 Schmidt M., Greve T., Avery B., Beckers J.F., Sulon J. & Hansen H.B. 1996. Pregnancies, calves and calf viability after transfer of in vitro produced bovine embryos. Theriogenology. 46(3): 527-539. 40 Szenci O. 1985. Role of acid-base disturbances in perinatal mortality of calves. Acta Veterinaria Hungarica. 33(3-4): 205- 220. 41 Tsunoda Y. & Kato Y. 2002. Recent progress and problems in animal cloning. Differentiation. 69(4-5): 158-161. 42 Weimann J., Ullrich R., Hromi J., Fujino Y., Clark M.W.H., Bloch K.D. & Zapol W.M. 2000. Sildenafil is a pulmonary vasodilator in awake lambs with acute pulmonary hypertension. Anesthesiology. 92 (6): 1702-1712. 43 Wells D.N. 1999. Animal cloning: current process, challenges and future prospects. Revista Brasileira Reprodução Animal. 23: 86-97. 44 Wilson J.M., Williams J.D. & Bondioli K.R. 1995. Comparison of birth weight and growth characteristics of bovine calves produced by nuclear transfer (cloning), embryo transfer and natural mating. Animal Reproduction Science. 38(1-2): 73-83. www.ufrgs.br/actavet 39(Suppl 1) s252
P. Humblot. 2011. Reproductive Technologies and Epigenetics: their Implications for Genomic Selection in Cattle. sss ssssssss Acta Scientiae Veterinariae. 39(Suppl 1): s253 - s262. Acta Scientiae Veterinariae, 2011. 39(Suppl 1): s253 - s262. ISSN 1679-9216 (Online) Repr eproduc ductiv tive Technolo echnologies and Epigenetics: their Implications for Genomic Selec election in Cattle Patrice Humblot ABSTRACT Background: The development of genomic selection allowing a better selection for multiple traits (both for production and functional traits) induces dramatic changes in the way selection schemes are to be conducted. The associated needs for genomic selection which is to produce a large number of genotyped candidates as quick as possible may/will influence the way reproductive techniques are used to produce them. As the effect of the environment is no more integrated in the evaluation of performances based on genotype, there is also a need to better understand epigenetic effects and their possible implications while implementing genomic selection. Review: Information brought by reproductive physiology through access to powerful research tools in the fields of genomics, transcriptomics, proteomics and metabolomics will provide new genetic markers and will contribute to improve the precision of phenotypes. The combination of the two types of information is susceptible to increase considerably the efficiency of selection for reproductive traits. As better reproduction may facilitate the way to run selection schemes (more choice among candidates and production of those candidates at a young age), this knowledge can be profitable also to increase the efficiency of multiple trait selection. In this context, and depending on population characteristics, the interest of the reproductive techniques including assisted embryo based reproductive technologies (Multiple Ovulation Embryo Transfer (MOET) and Ovum pick up associated to in vitro Fertilization (OPU-IVF)) should be also revisited. The efficiency of systems based on scenarios involving several reproductive techniques taken in combination should be tested. The recent results obtained with embryo typing, which are N compatible with the use of the last generation of chips for genotype analysis may lead to very promising applications for the breeding industry. The combined use of several embryo based reproductive technologies will probably be more important in the near future for selection purposes to satisfy the needs of genomic selection by increasing the number of candidates and to preserve at the same time genetic variability. Since several years, genotyping has been used more or less intensively by breeding companies to genotype males and females within nucleus herds As any farmer will get access to the genotype of the females present in their herd, an increased use of embryo based reproductive technologies may result also from the demand of individual farmers who may wish to valorize as well and as quick as possible the genetic potential of their best heifers following genotyping. In the near future, a better knowledge on epigenetics will allow to estimate the interactions between genotype and environment and their impact on performances of present or future generations. This represents a critical information when evaluating performances and when selecting future sires on genomic based information especially with the objective of implementing sustainable breeding schemes. Conclusion: The manuscript describes the new context and corresponding needs for genomic selection and how reproductive technologies and additional knowledge on epigenetics can be used to meet those needs. Keywords: genomic selection, gene expression, transcriptomics, epigenetics, phenotype, reproduction, embryo, biotechnology. Division of Reproduction, Department of Clinical Sciences, Faculty of Veterinary Medicine and Animal Science, Swedish University of Agricultural Sciences, Uppsala, Sweden. CORRESPONDENCE: P. Humblot [Patrice.Humblot@slu.se]. Faculty of Veterinary Medicine and Animal Science, Swedish University of Agricultural Sciences, SLU, Po Box 7054, SE 750 07, Uppsala, Sweden. s253
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