Séminaires CBI de la semaine du 13-11-2023 au 19-11-2023
Lundi 13 Novembre
Gordana Wutz IMPCODE séminaire publicTitre : "The role of cohesin regulators in shaping the genome"
11:00
4R4-RDC | Salle Conférence (182 pers.)Gordana Wutz pursued her studies in molecular biology in Croatia. She obtained her PhD at Vienna University, where she focused on researching rhinoviruses. During her postdoctoral studies, she relocated to Boston and joined the lab of E. Robertson at the Harvard university. There, she utilised mouse knockout technology to investigate MHC class II/peptide complexes.
In her subsequent postdoctoral position, Gordana Wutz became a member of Jan-Michael Peters' laboratory at the IMP in Vienna. She remains there today as a dedicated research associate. Over the past decade, she has employed Hi-C technology to delve into the intricacies of chromatin organisation facilitated by cohesin.
Mardi 14 Novembre
Vicente de Sousa Xavier
STADE séminaire interne
Titre : Dendrite development in a motion direction detection circuit
11:00
4R4-RDC | Salle Conférence (182 pers.)
Laure Verret (CRCA-REMEMBER)
NEUROBIOLOGY séminaire interne
Titre : What’s new on Alzheimer’s disease? Insights from mouse models.
12:15
4R4-RDC | Salle Conférence (182 pers.)
Nathalie Campo & Philippe Rousseau Team Polard & Team Bouet/Cornet
SYSMIC séminaire interne
Titre : Transient inhibition of cell division in competent pneumococcal cells results from deceleration of the septal peptidoglycan complex. " Interplay between the Xer system and the dissemination of antibioresistance in Acinetobacter baumannii ”
15:00
4R4-RDC | Salle Conférence (182 pers.)
Mercredi 15 Novembre
Jeudi 16 Novembre
Denis KRNDIJA
CELLDYN séminaire public
Titre : Mechanobiology club
15:00
4R4-RDC | Salle Conférence (182 pers.)
Vendredi 17 Novembre
Andreas Wodarz CECAD Universität zu Köln Germany CBI séminaire publicTitre : “Molecular control of actomyosin contractility during morphogenesis in Drosophila”
10:00
4R4-RDC | Salle Conférence (182 pers.)The cortical actomyosin network generates the mechanical force that drives highly dynamic processes occurring during epithelial morphogenesis, such as cell division, cell rearrangements or cell shape changes. Proper apical-basal and planar cell polarity are required to regulate the spatiotemporal behavior of the actomyosin network during morphogenesis. In Drosophila, Bazooka/Par3 (Baz) is one of the key regulators controling both apical-basal and planar cell polarity.
Samir MERABET IGFL LYON
CBI séminaire public
Titre : Decipheringinteractomes in live condition: new approaches, new perspectives
11:00
4R4-RDC | Salle Conférence (182 pers.)
Aurore Pelletier MCD
Défense HDR/PhD
Titre : Fonctions des peptides Tic/Tac et Sem1 dans la reproduction et le développement chez la drosophile
13:30
4R4-RDC | Salle Conférence (182 pers.)
CODE séminaire public
Titre : PICS CODE séminaire
15:30
IBCG | Salle Conférence (100 pers.)
Samedi 18 Novembre
Dimanche 19 Novembre