J. Degrolard scite author profile

J. Degrolard

5Publications

25Citation Statements Received

11Citation Statements Given

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Affiliations

Unité de Virologie et Immunologie Moléculaires, Laboratoire de Biologie Moléculaire de la Cellule

Publications

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Transcriptional activity and nucleolar ultrastructure of embryonic rabbit nuclei after transplantation to enucleated oocytes

et al. 1996

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Changes in the level of transcriptional activity in 32‐cell stage morula nuclei were studied after blastomere electrofusion to enucleated oocytes. Nuclear transplant recipients were pulse labelled with 3H‐uridine during cultivation in vitro, embryos were then fixed and processed for autoradiography and electron microscopy. Transcriptional activity substantially decreased after 4.5 hr and was completely inhibited at last 15 hr after fusion. Transcription resumed thereafter in two‐cell stage embryos and could be detected in both nuclei from 70% of the embryos analyzed. Transcription activity rapidly increased at the eight 16‐cell stages, reaching the level typical for 32‐cell stage nuclei used for the transfer. Changes in nucleolar ultrastructure after the nuclear transfer reflected the inhibition and subsequent reactivation of rRNA transcription. Nucleoli of 32‐cell embryos had a typical structure of active nucleoli; many fibrillar centers surrounded and interconnected by threads of the dense fibrillar component and embedded in the granular component. Six hours following nuclear transplantation, these nucleoli underwent drastic changes including loss of granular material, collapse of nucleolar structure, and segregation of nucleolar components. Following the first cleavage, segregated fibrillar components of nucleoli manifested a complete inhibition of nucleolar transcription. Ribosomal RNA transcription was restored at the eight‐cell stage and the sequence of ultrastructural changes was similar to that of the normal development. However, at the 32‐cell stage, excessive extrusion of pre‐ribosomal particles in the cytoplasm occurred, suggesting a possible alteration in regulating mechanisms of ribosome delivery. These results show that after fusion with enucleated metaphase II cytoplasm and subsequent activation, transcription is inhibited in donor embryonic nuclei and progressively increases again during cleavage; almost as in normal embryos. Migration of ribosomes into cytoplasm appears more intense in 32‐cell stage reconstituted embryos but this does not seem to inhibit blastocyst building. © 1996 Wiley‐Liss, Inc.

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Cellular evaluation of bovine nuclear transfer embryos developed in vitro

Heyman¹,

Degrolard²,

Adenot³

et al. 1995

Reprod. Nutr. Dev.

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Transcriptional activity and nucleolar ultrastructure of embryonic rabbit nuclei after transplantation to enucleated oocytes

et al. 1996

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Changes in the level of transcriptional activity in 32-cell stage morula nuclei were studied after blastomere electrofusion to enucleated oocytes. Nuclear transplant recipients were pulse labelled with 3H-uridine during cultivation in vitro, embryos were then fixed and processed for autoradiography and electron microscopy. Transcriptional activity substantially decreased after 4.5 hr and was completely inhibited at last 15 hr after fusion. Transcription resumed thereafter in two-cell stage embryos and could be detected in both nuclei from 70% of the embryos analyzed. Transcription activity rapidly increased at the eight 16-cell stages, reaching the level typical for 32-cell stage nuclei used for the transfer. Changes in nucleolar ultrastructure after the nuclear transfer reflected the inhibition and subsequent reactivation of rRNA transcription. Nucleoli of 32-cell embryos had a typical structure of active nucleoli; many fibrillar centers surrounded and interconnected by threads of the dense fibrillar component and embedded in the granular component. Six hours following nuclear transplantation, these nucleoli underwent drastic changes including loss of granular material, collapse of nucleolar structure, and segregation of nucleolar components. Following the first cleavage, segregated fibrillar components of nucleoli manifested a complete inhibition of nucleolar transcription. Ribosomal RNA transcription was restored at the eight-cell stage and the sequence of ultrastructural changes was similar to that of the normal development. However, at the 32-cell stage, excessive extrusion of pre-ribosomal particles in the cytoplasm occurred, suggesting a possible alteration in regulating mechanisms of ribosome delivery. These results show that after fusion with enucleated metaphase II cytoplasm and subsequent activation, transcription is inhibited in donor embryonic nuclei and progressively increases again during cleavage; almost as in normal embryos. Migration of ribosomes into cytoplasm appears more intense in 32-cell stage reconstituted embryos but this does not seem to inhibit blastocyst building.

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Application of different techniques of microscopy for the study of early differentiation in mammalian embryos: cells junctions

Fléchon

Degrolard

et al. 1995

Biology of the Cell

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Parietal endoderm cells of elongating ovine blastocysts are plurinucleate, observations on the cytoskeleton

Fléchon

Degrolard

et al. 1991

Biology of the Cell

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J. Degrolard

Transcriptional activity and nucleolar ultrastructure of embryonic rabbit nuclei after transplantation to enucleated oocytes

Cellular evaluation of bovine nuclear transfer embryos developed in vitro

Transcriptional activity and nucleolar ultrastructure of embryonic rabbit nuclei after transplantation to enucleated oocytes

Application of different techniques of microscopy for the study of early differentiation in mammalian embryos: cells junctions

Parietal endoderm cells of elongating ovine blastocysts are plurinucleate, observations on the cytoskeleton

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