Impact of whole-genome amplification on the reliability of pre-transfer cattle embryo breeding value estimates

Saadi, Habib A. Shojaei; Vigneault, Christian; Sargolzaei, Mehdi; Gagné, Dominic; Fournier, Éric; Montera, Béatrice de; Chesnais, J. P.; Blondin, Patrick; Robert, Claude

doi:10.1186/1471-2164-15-889

Cited by 27 publications

(17 citation statements)

References 54 publications

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“…Preimplantation genomic selection in cattle based on SNP genotypes is receiving increased attention as a means of accelerating genetic improvement by increasing selection pressure and avoiding the cost of producing genetically inferior animals [6, 19,20,21]. Although several groups have reported the potential of preimplantation genomic selection in dairy cattle [10, 11, 22,23,24], studies in Japanese Black cattle using this technique are limited. In the present study, we investigated the accuracy of GEBVs for carcass traits in preimplantation embryos derived from Japanese Black cattle.…”

Section: Discussionmentioning

confidence: 99%

“…[10] explored suitable WGA methodologies for SNP genotyping using biopsied embryonic cells (approximately 15 cells), and indicated that the illustra GenomiPhi V2 DNA amplification kit (GE Healthcare, MDA based method) produced the best results. Indeed, regarding the genetic value of the Lifetime Profit Index, their results showed an extremely high correlation (r = 0.99) between biopsied embryonic cells and the corresponding post-natal calves using the kit [10]. Correspondingly, we chose the illustra Single Cell GenomiPhi DNA Amplification Kit (GE Healthcare) for WGA in this study.…”

Section: Discussionmentioning

confidence: 99%

“…Therefore, whole-genome amplification (WGA) technology is necessary to amplify the input DNA prior to SNP genotyping. Several studies using dairy cattle have reported a high correlation between the genomic estimated breeding value (GEBV) of economic traits (such as Lifetime Profit Index and kilograms of milk protein) in biopsied embryonic cells processed for WGA and the corresponding factors in calves produced by ET [10, 11]. These findings demonstrated the effectiveness of WGA prior to SNP genotyping for accurate GEBV calculation and the possible application for a preimplantation genomic selection system in dairy cattle.…”

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Potential of preimplantation genomic selection for carcass traits in Japanese Black cattle

Fujii

Naito

Hirayama

et al. 2019

Journal of Reproduction and Development

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Preimplantation genomic selection using genomic estimated breeding values (GEBVs) based on single nucleotide polymorphism (SNP) genotypes is expected to accelerate genetic improvement in cattle. To develop a preimplantation genomic selection system for carcass traits in Japanese Black cattle, we investigated the accuracy of genomic evaluation of carcass traits using biopsied embryonic cells (Experiment 1); we also performed an empirical evaluation for embryo transfer (ET) of vitrified GEBV-evaluated blastocysts to assess the efficiency of the preimplantation genomic selection system (Experiment 2). In Experiment 1, the mean call rate for SNP genotyping using approximately 15 biopsied cells was 98.1 ± 0.3%, whereas that for approximately 5 biopsied cells was 91.5 ± 2.4%. The mean concordance rate for called genotypes between ~15-cell biopsies and the corresponding biopsied embryos was 99.9 ± 0.02%. The GEBVs for carcass weight, ribeye area, and marbling score calculated from ~15-cell biopsies closely matched those from the corresponding calves produced by ET. In Experiment 2, a total of 208 in vivo blastocysts were biopsied (~15-cell) and the biopsied cells were processed for SNP genotyping, where 88.5% of the samples were found to be suitable for GEBV calculation. Large variations in GEBVs for carcass traits were observed among full-sib embryos and, among the embryos, some presented higher GEBVs for ribeye area and marbling score than their parents. The conception rate following ET of vitrified GEBV-evaluated blastocysts was 41.9% (13/31). These findings suggest the possible application of preimplantation genomic selection for carcass traits in Japanese Black cattle.

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Section: Discussionmentioning

confidence: 99%

Section: Discussionmentioning

confidence: 99%

mentioning

confidence: 99%

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Potential of preimplantation genomic selection for carcass traits in Japanese Black cattle

Fujii

Naito

Hirayama

et al. 2019

Journal of Reproduction and Development

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“…They also proposed in vitro culture of biopsied cells as a means of increasing the amount of DNA template and the reliability of genotyping. However, another researcher indicated that the cell culture approach is unacceptable from a commercial point of view because larger biopsies (20 to 30 cells) were required for successful cell proliferation in culture, leading to significant reduction in embryo viability [ 20 ]. The use of elongating conceptuses allows a large number of cells to be biopsied without any reduction in viability; therefore, we attempted to develop a genomic selection system by PGD combined with the elongating conceptus transfer technique.…”

Section: Discussionmentioning

confidence: 99%

Production of calves by the transfer of cryopreserved bovine elongating conceptuses and possible application for preimplantation genomic selection

Fujii

Hirayama

Naito

et al. 2017

Journal of Reproduction and Development

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Preimplantation genomic selection based on single nucleotide polymorphism (SNP) genotypes is expected to accelerate genetic improvement in cattle. However, genome-wide genotyping at the early embryonic stage has several limitations, such as the technical difficulty of embryonic biopsy and low accuracy of genotyping resulting from a limited number of biopsied cells. After hatching from the zona pellucida, the morphology of the bovine embryo changes from spherical to filamentous, in a process known as elongation. The bovine nonsurgical elongating conceptus transfer technique was recently developed and applied for sexing without requiring specialized skills for biopsy. In order to develop a bovine preimplantation genomic selection system combined with the elongating conceptus transfer technique, we examined the accuracy of genotyping by SNP chip analysis using the DNA from elongating conceptuses (Experiment 1) and optimal cryopreservation methods for elongating conceptuses (Experiment 2). In Experiment 1, the call rates of SNP chip analysis following whole genome amplification in biopsied cells from two elongating conceptuses were 95.14% and 99.32%, which were sufficient for estimating genomic breeding value. In Experiment 2, the rates of dead cells in elongating conceptuses cryopreserved by slow freezing were comparable to those in fresh elongating conceptuses. In addition, we obtained healthy calves by the transfer of elongating conceptuses cryopreserved by slow freezing. Our findings indicate that the elongating conceptus transfer technology enables preimplantation genomic selection in cattle based on SNP chip analysis. Further studies on the optimization of cryopreservation methods for elongating conceptuses are required for practical application of the selection system.

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“…While it is possible to collect embryo biopsies for DNA genotyping without affecting the pregnancy rate of the embryos (Saadi et al, 2014), the IVP-ET efficiency is still relatively low and remains the bottleneck in this process. A possible way to increase the efficiency of IVP-ET procedures is identification and selection of high-quality oocyte donors and embryo recipients.…”

Section: Introductionmentioning

confidence: 99%

Application of integrative genomics and systems biology to conventional and in vitro reproductive traits in cattle

Mazzoni¹,

Pedersen

Oliveira

et al. 2017

Anim Reprod

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Assisted reproductive technologies (ARTs) have a strong impact on breeding especially when coupled with genomic selection (GS). The routine implementation of in vitro production (IVP) and GS of embryos before embryo transfer (ET) in breeding companies is not yet possible. Improvement of oocyte donor and embryo recipient quality is needed to make realistic a commercialization of these procedures in the near future. A better understanding of both biological mechanisms and molecular markers associated to IVP-ET related traits is necessary to improve the prediction of donor and recipient cow quality for IVP procedures. The huge amount of data generated from high throughput technologies has a tremendous impact in the search for biomarkers of complex traits. This paper reviews integrative genomics and systems biology approaches as applied to both Bos indicus and Bos taurus cattle reproduction by both conventional and ARTs such as OPU-IVP. The integration of systems biology information across different biological layers generates a complete view of the different molecular networks that control complex traits and can provide a strong contribution to the understanding of traits related to ARTs.

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Impact of whole-genome amplification on the reliability of pre-transfer cattle embryo breeding value estimates

Cited by 27 publications

References 54 publications

Potential of preimplantation genomic selection for carcass traits in Japanese Black cattle

Potential of preimplantation genomic selection for carcass traits in Japanese Black cattle

Production of calves by the transfer of cryopreserved bovine elongating conceptuses and possible application for preimplantation genomic selection

Application of integrative genomics and systems biology to conventional and in vitro reproductive traits in cattle

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