Why we should not select the faster embryo Lessons from mice and cattle
Many studies have shown that in vitro culture can negatively impact preimplantation development. This necessitates some selection criteria for identifying the best-suited embryos for transfer. That said, embryo selection after in vitro culture remains a subjective process in most mammalian species, including cows, mice and humans. General consensus in the field is that embryos that develop in a timely manner have the highest developmental competence and viability after transfer. Herein lies the key question what is a timely manner? With emerging data in bovine and mouse supporting increased developmental competency in embryos with moderate rates of development, it is time to question whether the fastest developing embryos are the best embryos for transfer in the human clinic. This is especially relevant to epigenetic gene regulation, including genomic imprinting, where faster developing embryos exhibit loss of imprinted methylation, as well as to sex selection bias, where faster developmental rates of male embryos may lead to biased embryo transfer and, in turn, biased sex ratios. In this review, we explore evidence surrounding the question of developmental timing as it relates to bovine embryo quality, mouse embryo quality and genomic imprint maintenance, and embryo sex. © 2015 CSIRO.
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| Format: | artículo de revisión biblioteca |
| Language: | English |
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CSIRO Publishing
2015
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| Subjects: | Developmental kinetics, Embryo culture, Embryo quality, Epigenetics, Sex, |
| Online Access: | http://hdl.handle.net/20.500.12792/2038 http://hdl.handle.net/10261/292267 |
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dig-inia-es-10261-2922672023-02-20T07:27:15Z Why we should not select the faster embryo Lessons from mice and cattle Gutiérrez Adán, Alfonso White, C. R. Van Soom, A. Mann, M. R. W. Developmental kinetics Embryo culture Embryo quality Epigenetics Sex Many studies have shown that in vitro culture can negatively impact preimplantation development. This necessitates some selection criteria for identifying the best-suited embryos for transfer. That said, embryo selection after in vitro culture remains a subjective process in most mammalian species, including cows, mice and humans. General consensus in the field is that embryos that develop in a timely manner have the highest developmental competence and viability after transfer. Herein lies the key question what is a timely manner? With emerging data in bovine and mouse supporting increased developmental competency in embryos with moderate rates of development, it is time to question whether the fastest developing embryos are the best embryos for transfer in the human clinic. This is especially relevant to epigenetic gene regulation, including genomic imprinting, where faster developing embryos exhibit loss of imprinted methylation, as well as to sex selection bias, where faster developmental rates of male embryos may lead to biased embryo transfer and, in turn, biased sex ratios. In this review, we explore evidence surrounding the question of developmental timing as it relates to bovine embryo quality, mouse embryo quality and genomic imprint maintenance, and embryo sex. © 2015 CSIRO. 2023-02-20T07:27:15Z 2023-02-20T07:27:15Z 2015 artículo de revisión Reproduction, Fertility and Development 27(5): 765-775 (2015) 1031-3613 http://hdl.handle.net/20.500.12792/2038 http://hdl.handle.net/10261/292267 10.1071/RD14216 1448-5990 en none CSIRO Publishing |
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Developmental kinetics Embryo culture Embryo quality Epigenetics Sex Developmental kinetics Embryo culture Embryo quality Epigenetics Sex |
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Developmental kinetics Embryo culture Embryo quality Epigenetics Sex Developmental kinetics Embryo culture Embryo quality Epigenetics Sex Gutiérrez Adán, Alfonso White, C. R. Van Soom, A. Mann, M. R. W. Why we should not select the faster embryo Lessons from mice and cattle |
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Many studies have shown that in vitro culture can negatively impact preimplantation development. This necessitates some selection criteria for identifying the best-suited embryos for transfer. That said, embryo selection after in vitro culture remains a subjective process in most mammalian species, including cows, mice and humans. General consensus in the field is that embryos that develop in a timely manner have the highest developmental competence and viability after transfer. Herein lies the key question what is a timely manner? With emerging data in bovine and mouse supporting increased developmental competency in embryos with moderate rates of development, it is time to question whether the fastest developing embryos are the best embryos for transfer in the human clinic. This is especially relevant to epigenetic gene regulation, including genomic imprinting, where faster developing embryos exhibit loss of imprinted methylation, as well as to sex selection bias, where faster developmental rates of male embryos may lead to biased embryo transfer and, in turn, biased sex ratios. In this review, we explore evidence surrounding the question of developmental timing as it relates to bovine embryo quality, mouse embryo quality and genomic imprint maintenance, and embryo sex. © 2015 CSIRO. |
| format |
artículo de revisión |
| topic_facet |
Developmental kinetics Embryo culture Embryo quality Epigenetics Sex |
| author |
Gutiérrez Adán, Alfonso White, C. R. Van Soom, A. Mann, M. R. W. |
| author_facet |
Gutiérrez Adán, Alfonso White, C. R. Van Soom, A. Mann, M. R. W. |
| author_sort |
Gutiérrez Adán, Alfonso |
| title |
Why we should not select the faster embryo Lessons from mice and cattle |
| title_short |
Why we should not select the faster embryo Lessons from mice and cattle |
| title_full |
Why we should not select the faster embryo Lessons from mice and cattle |
| title_fullStr |
Why we should not select the faster embryo Lessons from mice and cattle |
| title_full_unstemmed |
Why we should not select the faster embryo Lessons from mice and cattle |
| title_sort |
why we should not select the faster embryo lessons from mice and cattle |
| publisher |
CSIRO Publishing |
| publishDate |
2015 |
| url |
http://hdl.handle.net/20.500.12792/2038 http://hdl.handle.net/10261/292267 |
| work_keys_str_mv |
AT gutierrezadanalfonso whyweshouldnotselectthefasterembryolessonsfrommiceandcattle AT whitecr whyweshouldnotselectthefasterembryolessonsfrommiceandcattle AT vansooma whyweshouldnotselectthefasterembryolessonsfrommiceandcattle AT mannmrw whyweshouldnotselectthefasterembryolessonsfrommiceandcattle |
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