03618nam a2200361 a 450000100080000000500110000800800410001910000250006024501480008526000690023350002580030252022720056065000200283265000250285265000200287765000180289765000100291565000180292565000120294365000190295565000240297465000310299865000280302965300250305765300310308265300090311365300390312265300200316170000180318170000180319970000220321770000170323920742752022-05-16       2015    bl uuuu     u00u1 u    #d1 aNASCIMENTO, P. M. P.  aIdentification of arthritis encephalitis caprine (CAEV) in flushing media and embryos fromnaturally infected herd goats.h[electronic resource]  aAnimal Reproduction, v. 12, n. 3, p. 703, Jul./Sept. 2015.c2015  aProceedings of the 29th Annual Meeting of the Brazilian Embryo Technology Society (SBTE); Gramado, RS, Brazil, August 20th to 23rd, 2015, and 31st Meeting of the European Embryo Transfer Association (AETE); Ghent, Belgium, September 11th and 12th, 2015.  aAbstract: The goat production in Minas Gerais state has been growing in recent years, especially with intensive dairy production systems. The artificial reproduction biotechnologies are a powerful mechanism for genetics dissemination. However, the caprine arthritis encephalitis virus (CAEV) is present in most of the dairy goats farms, which represent a risk for disease transmission. The aim of this study is to identify the presence of pro-viral and viral CAEV genome in uterine lavage fluid and embryos samples collected by the non cirurgical transcervical assay. Eight goats were selected with 56.0 ± 13,4kg and a body condition score of 3.5 ± 0.75. The animals were all positive for CAEV in "Western Blotting" diagnosis. Oestrus sycronisation and ovarian superovulation was performed from adapted protocol from Fonseca et al, 2006 (Acta Scientiae Veterinariae, v. 34, sul. 1). After transcervical embryo flushing, embryos that had intact ZP, had their inner cell mass aspirated by a micromanipulator, and the product (zona pellucida and inner cell mass) was stored in RNA later. Centrifugation was performed in uterine liquid washings, until the identification of a pellet (pellet 1) and subsequently viral concentration of uterine flushings (pellet 2) was performed. The material obtained (pellets 1 and pellets 2) was submitted to viral and pro-viral genome extraction with Cador Pathogen® mini kit (Qiagen, Germany) assay. Embryonic samples (zona pellucida and inner cell mass) cDNA synthesis was performed from the viral genome with the use of M MLV enzyme according to protocol. The samples were submitted to nested PCR (Fieni, 2010,). The presence of viral and pro-viral genome in pellet (samples 2), but not in the pellet 1 or embryonic samples (zona pellucida and inner cell mass) was identified. Results shows viral replication could happen in the reproductive system from naturally infected goats, what have never been described before. However, embryos recovery from the flushing media did not show to be permissive to virus. This might indicate that the non cirurgical technique can provide virus dilution, since previous studies in embryos collected surgically revealed the presence of the virus pellet in 1, what did not happen in present work.  aAnimal diseases  aDisease transmission  aEmbryo transfer  aGoat diseases  aGoats  aBiotecnologia  aCaprino  aDoença animal  aReprodução animal  aTransferência de embrião  aTransmissão de doença  aAnimal biotechnology  aArtrite encefalite caprina  aCAEV  aCaprine arthritis encephalit virus  aIn vivo embryos1 aSANTOS, G. B.1 aPENIDO, A. O.1 aFONSECA, J. F. da1 aLEITE, R. C.