Effect of rabbit line on a program of cryopreserved embryos by vitrification

Vicente, J.S.; Viudes-de-Castro, M.P.; Garcia, María de la Luz; Baselga, M.

doi:10.1051/rnd:2003011

Cited by 26 publications

(45 citation statements)

References 19 publications

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“…The effect of the genotype on the rederivation efficiency of cryobanked embryos in the rat, mouse, and rabbit has been observed [3,[12][13][14]. In fact, Vicente et al [15] reported that cryopreserved embryos from paternal rabbit lines (selected for growth characteristics) showed reduced survival rate after transfer (10% less) compared with cryopreserved em-bryos from maternal lines (selected for reproductive char-acteristics such as litter size at birth or at weaning). One management tool used to achieve higher survival rates after thawing consists of transferring the embryos of paternal lines to recipient does from a maternal line.…”

Section: Introductionmentioning

confidence: 99%

Embryo vitrification in rabbits: Consequences for progeny growth

et al. 2015

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The objective of this research is to examine if there are any effects of the rederivation procedures on rabbit growth pattern and on weight of different organ in adults. For this purpose, three experiments were conducted on two different groups of animals (control group and vitrified-transferred group) to evaluate the possible effect of embryo manipulation (vitrification and transfer procedures) on future growth traits. The first experiment studies body weight from 1 to 9 weeks of age from the two groups. The second experiment describes the growth curve of progeny from experimental groups and analyzes their Gompertz curve parameters, including the estimation of adult body weight. The third experiment has been developed to study if there are any differences in different organ weight in adult males from the two experimental groups. In general, the results indicate that rederivation procedures had effect on the phenotypic expression of growth traits. The results showed that rabbit produced by vitrification and embryo transfer had higher body weight in the first four weeks of age than control progeny. Results from body weight (a parameter) and b parameter estimated by fitting the Gompertz growth curve did not show any difference between experimental groups. However, differences related with growth velocity (k parameter of the Gompertz curve) were observed among them, showing that the control group had higher growth velocity than the vitrified-transferred group. In addition, we found that liver weight at 40th week of age exhibits significant differences between the experimental groups. The liver weight was higher in the control males than in the VF males. Although the present results indicate that vitrification and transfer pro-cedures might affect some traits related with growth in rabbits, further research is needed to assess the mechanisms involved in the appearance of these phenotypes and if these phenotypes could be transferred to the future progeny.

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Section: Introductionmentioning

confidence: 99%

Embryo vitrification in rabbits: Consequences for progeny growth

et al. 2015

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“…When line R does are induced to ovulate with GnRH analogues, no significant failures are observed in ovulation frequency: between 95-100% of AI females treated with a GnRH analogue ovulated (Viudes-de-Castro et al, 1995;Mehaisen et al, 2004;Vicente et al, 2003Vicente et al, :2012. Additionally, the GnRH analogue injected after AI could increase systemic LH blood concentrations and could promote more LH receptors in the follicles than GnRH naturally secreted after natural mating (Pieper et al, 1981).…”

Section: Discussionmentioning

confidence: 99%

“…Specifically, paternal rabbit lines selected uniquely for growth rate are characterised by elevated growth rate and adult live weight , but reduced reproductive performance (Mehaisen et al, 2004;Vicente et al, 2012). In previous studies comparing paternal and maternal rabbit lines, differences have been reported in ovulation frequency, ovulation rate, prenatal survival, gestational losses and consequently in litter size (Vicente et al, 2003;. Specifically, works carried out with line R, selected by weight daily gain, reported severe reproductive characteristics.…”

Section: Effects Of Selection By Growth Rate On Reproductive Performancementioning

confidence: 99%

“…Nevertheless, estimates of genetic correlation in rabbits between the litter size and growth traits are low and contradictory, as the magnitude and the sign of the correlations could depend on the correlated reproductive trait, as well as the population or strain under study. In previous studies comparing paternal and maternal lines, differences have been reported in ovulation frequency, ovulation rate, gestational losses and consequently in litter size (Vicente et al, 2003;. Recent estimations of the effects of inbreeding on litter size exclude it as the factor explaining the differences observed between the paternal and maternal lines (Gadsby et al, 1983).…”

Section: Introductionmentioning

confidence: 99%

“…These ovulation failures were related to reduced LH plasma concentrations when females did not ovulate naturally, while in all line R does induced to ovulate with GnRH analogues ovulation occurred in 95-100% (Viudes- de-Castro et al, 1995;Vicente et al, 2003;Naturil-Alfonso et al, 2016). It has been shown that fasting modifies the responses of the anterior pituitary gland to GnRH activity, leading to a reduced synthesis of LH by pituitary cells Ferguson et al, 2003).…”

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confidence: 99%

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Effect of Feed Restriction in a Rabbit Line Selected for Growth Rate on Reproductive Performance: Ovulation Induction, Oocyte Quality, Embryonary and Fetal Losses

Alfonso¹

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The general aim of this thesis was to reproductively characterize females from a rabbit line selected for growth rate (line R) and to evaluate the effect of different nutritional strategies (ad libitum and restricted before reproduction), in order to improve the reproductive performance of these females.In chapter 1, the influence of maternal and embryonic genotype on prenatal survival and fetal growth over gestation was evaluated and contrasted with a maternal line. Prenatal survival, fetal weight and fetal placenta weight were affected by both embryonic and maternal genotype. Firstly, embryonic genotype was a main factor at Days 14 and 24 and maternal genotype contributed at Day 30 of prenatal survival. Secondly, differences in fetal weight were only manifested at Day 14, the embryonic/maternal genotype from the maternal line being the heaviest (0.29±0.01 g vs. 0.19±0.01 g, for line R genotypes). However, while for fetal placenta weight both genotypes showed an effect at Day 24, for maternal placenta weight they were relevant at Day 30. Nevertheless, no differences were detected either at transcriptomic level in fetal placenta or in progesterone and IGF-I plasma levels in these females. From this chapter it may be concluded that in rabbit females from paternal lines both embryonic and maternal genotypes are key factors in the reproductive performance of these females.The aim of chapter 2 was to explore the causes of ovulation failures in these rabbit females. Results showed that non-ovulated females presented lower LH plasma concentration as well as higher body weight and leptin and BOHB II plasma levels than ovulated females. Thus, ovulation failures in females from line R could be attributed to decreased LH plasma concentrations in these females which may be related with their higher body weight and leptin levels.In the light of the previous results, the following three chapters were focused on improvement of the reproductive performance of these females through a different nutritional strategy: a feed-to-appetite diet of these females after the rearing period and prior to insemination. The initial hypothesis was that the females are submitted to a restricted nutritional regimen which is not enough to cope with their needs during reproduction, causing long-term disturbances of energy balance which leads to the subsequent reproductive problems.Chapter 3 aimed to determine if a feed-to-appetite nutritional strategy would affect the hypothalamus-hypophysis axis and the quality of the produced oocytes, by transcriptomic analysis. While no differences were found in the microarray analysis of the hypothalamus-hypophysis, small differences were detected in the transcript expression analysis in oocytes of a group of genes selected. MSY2 was found to be downregulated in oocytes from restricted females. As a key regulator of maternal RNA transcription and translation, changes in this essential gene could explain some of the reproductive problems of these females with high growth potential.Whether the differenc...

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