Entité de rattachement
Morpho-Anatomie et Développement des Plantes (MADP)

Contact

Courriel
eugenie.carnero [at] mnhn.fr
Téléphone
01 40 79 33 49
Adresse(s)

12 rue Buffon

CP39

75005 Paris

Publications

2024
  • Willis Craig, Calvaruso Marco, Angeloni Debora, Baatout Sarah, Benchoua Alexandra, Bereiter-Hahn Juergen, Bottai Daniele, Buchheim Judith-Irina, Carnero-Diaz Eugénie, Castiglioni Sara, Cavalieri Duccio, Ceccarelli Gabriele, Chouker Alexander, Cialdai Francesca, Ciofani Gianni et al., mai 2024How to obtain an integrated picture of the molecular networks involved in adaptation to microgravity in different biological systems?. NPJ Microgravity vol. 10, n° 1, p. 50 Publisher: Nature Publishing Group tex.hal_id: hal-04569486 tex.hal_version: v1
  • Davis Trent, Tabury Kevin, Zhu Shouan, Angeloni Debora, Baatout Sarah, Benchoua Alexandra, Bereiter-Hahn Juergen, Bottai Daniele, Buchheim Judith-Irina, Calvaruso Marco, Carnero-Diaz Eugénie, Castiglioni Sara, Cavalieri Duccio, Ceccarelli Gabriele, Choukér Alexander et al., février 2024How are cell and tissue structure and function influenced by gravity and what are the gravity perception mechanisms?. NPJ Microgravity vol. 10, n° 1, p. 16 Publisher: Nature Publishing Group tex.hal_id: hal-04450577 tex.hal_version: v1
2023
  • de Micco Veronica, Aronne Giovanna, Caplin Nicol, Carnero-Diaz Eugénie, Herranz Raúl, Horemans Nele, Legué Valérie, Medina F Javier, Pereda-Loth Veronica, Schiefloe Mona, de Francesco Sara, Izzo Luigi Gennaro, Le Disquet Isabel & Kittang Ann-Iren, 2023Perspectives for plant biology in Space and analogue environments. NPJ Microgravity , , Publisher: Nature Publishing Group tex.hal_id: hal-04045474 tex.hal_version: v1
2022
  • Manzano Aranzazu, Carnero-Diaz Eugenie, Herranz Raul & Javier Medina F., 2022Recent transcriptomic studies to elucidate the plant adaptive response to spaceflight and to simulated environments. ISCIENCE vol. 25, n° 8, Number: 104687 tex.earlyaccessdate: JUL 2022 tex.eissn: 2589-0042 tex.orcid-numbers: Manzano, Aranzazu/0000-0002-0150-0803 tex.researcherid-numbers: Manzano, Aranzazu/H-5307-2015 tex.unique-id: WOS:000827610700003
2020
  • Madrigal Pedro, Gabel Alexander, Villacampa Alicia, Manzano Aránzazu, Deane Colleen S., Bezdan Daniela, Carnero-Diaz Eugénie, Medina F. Javier, Hardiman Gary, Grosse Ivo, Szewczyk Nathaniel, Weging Silvio, Giacomello Stefania, Harridge Stephen D.R., Morris-Paterson Tessa et al., 2020Revamping Space-omics in Europe. Cell Systems vol. 11, n° 6, p. 555-556
    ISSN
    24054712
2018
  • Valbuena Miguel A., Manzano Aránzazu, Vandenbrink Joshua P., Pereda-Loth Veronica, Carnero-Diaz Eugénie, Edelmann Richard E., Kiss John Z., Herranz Raúl & Medina F. Javier, 2018The combined effects of real or simulated microgravity and red-light photoactivation on plant root meristematic cells. Planta vol. 248, n° 3, p. 691-704
    ISSN
    1432-2048
2016
  • Boucheron-Dubuisson Elodie, Manzano Ana I., Le Disquet Isabel, Matía Isabel, Sáez-Vasquez Julio, van Loon Jack J. W. A., Herranz Raúl, Carnero-Diaz Eugénie & Medina F. Javier, 2016Functional alterations of root meristematic cells of Arabidopsis thaliana induced by a simulated microgravity environment. Journal of Plant Physiology vol. 207, , p. 30-41
    ISSN
    01761617
2014
  • Mazars Christian, Brière Christian, Grat Sabine, Pichereaux Carole, Rossignol Michel, Pereda-Loth Veronica, Eche Brigitte, Boucheron-Dubuisson Elodie, Le Disquet Isabel, Medina Francisco-Javier, Graziana Annick & Carnero-Diaz Eugénie, 2014Microsome-associated proteome modifications of Arabidopsis seedlings grown on board the International Space Station reveal the possible effect on plants of space stresses other than microgravity. Plant Signaling & Behavior vol. 9, n° 9, e29637
    ISSN
    1559-2324
  • Mazars Christian, Brière Christian, Grat Sabine, Pichereaux Carole, Rossignol Michel, Pereda-Loth Veronica, Eche Brigitte, Boucheron-Dubuisson Elodie, Le Disquet Isabel, Medina Francisco Javier, Graziana Annick & Carnero-Diaz Eugénie, 2014Microgravity Induces Changes in Microsome-Associated Proteins of Arabidopsis Seedlings Grown on Board the International Space Station. PLoS One vol. 9, n° 3, e91814
    ISSN
    1932-6203
  • Kittang A. -I., Iversen T. -H., Fossum K. R., Mazars C., Carnero-Diaz E., Boucheron-Dubuisson E., Le Disquet I., Legué V., Herranz R., Pereda-Loth V. & Medina F. J., 2014Exploration of plant growth and development using the European Modular Cultivation System facility on the International Space Station. Plant Biology vol. 16, n° 3, p. 528-538
    ISSN
    14358603