2016
DOI: 10.1007/s10815-016-0772-7
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Crotamine, a cell-penetrating peptide, is able to translocate parthenogenetic and in vitro fertilized bovine embryos but does not improve exogenous DNA expression

Abstract: Purpose Crotamine is capable of penetrating cells and embryos and transfecting cells with exogenous DNA. However, no studies are available regarding its uptake by parthenogenetic (PA) embryos or its use for transfection in in vitro fertilized (IVF) embryos. This study aimed to determine the translocation kinetics of crotamine into PA and IVF bovine embryos and assess its effect over in vitro development of PA embryos. Moreover, crotamine-DNA complexes were used to test the transfection ability of crotamine in … Show more

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Cited by 2 publications
(5 citation statements)
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“…When comparing embryos microinjected with plasmid alone or with the DNA-dLCr complex, the rate of DNA expression of exogenous DNA in bovine embryos was not comparatively improved. The high affinity for DNA and binding capacity of dLCr might again restrain the release of the GFP plasmid gene in the complex for protein expression, similar to found previously when using native crotamine to induce exogenous DNA expression in bovine embryos (Campelo et al, 2016b). Therefore, it was hypothesized that dLCr remains complexed to exogenous DNA even inside the cytoplasm of embryo cells, and this possibly led to very low GFP expression and detectable fluorescence.…”
Section: Discussionsupporting
confidence: 63%
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“…When comparing embryos microinjected with plasmid alone or with the DNA-dLCr complex, the rate of DNA expression of exogenous DNA in bovine embryos was not comparatively improved. The high affinity for DNA and binding capacity of dLCr might again restrain the release of the GFP plasmid gene in the complex for protein expression, similar to found previously when using native crotamine to induce exogenous DNA expression in bovine embryos (Campelo et al, 2016b). Therefore, it was hypothesized that dLCr remains complexed to exogenous DNA even inside the cytoplasm of embryo cells, and this possibly led to very low GFP expression and detectable fluorescence.…”
Section: Discussionsupporting
confidence: 63%
“…The rational to use disulphide-less crotamine as the delivery tool for embryo transfection instead of the native disulphide-bond folded crotamine relied on the fact that CPPs should make a complexation between the peptide and DNA complex that was strong enough to permit stable uptake through the zona pellucida and/or cell membrane translocation, but should be sufficiently weak to permit the release of DNA though dissociation into the cell cytoplasm to enable it to traffic to the nucleus. In our previous studies (Campelo et al, 2016a(Campelo et al, , 2016b, bovine embryos were used as a model for gene transfer with DNA-NCr complexes. However, the use of the DNA-NCr complex did not improve the transgene expression rate, supposedly because of strong DNA-peptide binding within embryo cells (Campelo et al, 2016b).…”
Section: Discussionmentioning
confidence: 99%
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