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Your search keyword '"Signoret, J."' showing total 8 results
Start Over Author "Signoret, J." Topic ambystoma
8 results on '"Signoret, J."'

1. Evidence for introduction of a variable G1 phase at the midblastula transition during early development in axolotl.

Author

Lefresne J, Andéol Y, and Signoret J

Subjects
Animals, Autoradiography, Cell Division, Cellular Senescence, DNA metabolism, DNA Replication, Female, Fluorometry, Thymidine metabolism, Ambystoma embryology, Blastocyst cytology, G1 Phase
Abstract

After fertilization in axolotl, the synchronous cell cleavages are triphasic (S, G2 and M phases). Midblastula transition (MBT) begins at the ninth cleavage and is the consequence of lengthening of cell cycles. By spectrofluorometry and incorporation of 3H thymidine into the nuclear DNA followed by autoradiography on individual cells, the time at which a G1 phase appears during early development was investigated. The present results show that the G1 phase was introduced for the first time at MBT and its duration was variable from one blastomere to another. This variability could account for lengthening of cell cycles and be required for zygotic transcriptions necessary for DNA replication. From this point of view, axolotl represents an interesting alternative amphibian model to identify regulators involved in the G1-S transition at MBT during early development.

Published
1998
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3. [Demonstration of RNA synthesis during segmentation in the Axolotl embryo].

Author

Signoret J and Lefresne J

Subjects
Animals, Cell Division, Cell Nucleus metabolism, Transcription, Genetic, Ambystoma embryology, RNA biosynthesis
Abstract

Study of the incorporation of 3H-uridine in cleaving embryo of Axolotl has shown a nuclear RNA synthesis during the period of synchronous cleavage (6th cycle) as well as after the onset of asynchronous divisions (9th or 10th cycle). In the early development of the Axolotl, the extent of the transcription phase looks to be an essential element of the quantitative control of gene activity.

Published
1975

4. Enzyme involved in DNA replication in the axolotl. I. Analysis of the forms and activities of DNA polymerase and DNA ligase during development.

Author

Carré D, Signoret J, Lefresne J, and David JC

Subjects
Aging, Animals, DNA Ligases isolation & purification, DNA Polymerase I metabolism, DNA Polymerase II metabolism, DNA Polymerase III metabolism, DNA-Directed DNA Polymerase isolation & purification, Embryo, Nonmammalian enzymology, Female, Kinetics, Larva enzymology, Ovum enzymology, Templates, Genetic, Ambystoma growth & development, DNA Ligases metabolism, DNA Replication, DNA-Directed DNA Polymerase metabolism, Polynucleotide Ligases metabolism
Published
1981
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5. DNA ligase in Axolotl egg: a model for study of gene activity control.

Author

Lefresne J, David JC, and Signoret J

Subjects
Animals, Blastocyst ultrastructure, Cycloheximide pharmacology, DNA Replication, Dose-Response Relationship, Radiation, Female, Gamma Rays, Male, Models, Biological, Molecular Weight, Nuclear Transfer Techniques, Time Factors, Ambystoma embryology, Ambystoma mexicanum embryology, DNA Ligases metabolism, Gene Expression Regulation radiation effects, Ovum enzymology, Polynucleotide Ligases metabolism, Zygote enzymology
Abstract

Replacement of the light form of DNA ligase (6 S) by the heavy form (8 S) in activated egg of Axolotl has been studied as a model for change in genetic activity exerted by the female pronucleus. Nuclear transplantation shows that a blastula nucleus is able to govern the replacement of the light ligase by the heavy one. The result is not the same if the grafted nucleus is taken from an androgenetic embryo, devoid of the heavy enzyme. Therefore the change in the properties of the female pronucleus appears stable and autoreproducible. Gamma irradiations delivered at different times after activation establish that the replacement of the ligase forms depends on an intact nucleus up to 3 hr 30 min after activation, and thereafter is achieved independently of any nuclear damage. Inhibitors of DNA replication impede the change of enzymatic form in reversible process, suggesting new chromatin synthesis as prerequisite for expression of the new genetic activity. The quantitative level of DNA ligase activity does not show any dose effect when one or many nuclei are present in the same cytoplasm. However, a change in nucleotide concentration results in a change in DNA ligase activity, indicating cytoplasmic control of enzymatic regulation.

Published
1983
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7. Evidence for a DNA ligase change related to early cleavage in axolotl egg.

Author

David JC, Vinson D, Lefresne J, and Signoret J

Subjects
Animals, Cell Division, Ethylmaleimide pharmacology, Female, Hot Temperature, Ambystoma physiology, DNA Ligases metabolism, Ovum enzymology, Polynucleotide Ligases metabolism, Zygote enzymology
Abstract

A definite change in the forms of DNA ligase appears when the axolotl egg enters cleavage. Sucrose gradient and phosphocellulose chromatography show that the a 6S form of DNA ligase exists before division, i.e. in unfertilised and fertilised egg, and a 8.2S form is present at the first division. N-ethylmaleimide sensitivity and heat stability are different for the two forms. The possible significance of this early change is discussed.

Published
1979
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