The GCP3-interacting proteins GIP1 and GIP2 are required for gamma-tubulin complex protein localization, spindle integrity, and chromosomal stability.
Fiche publication
Date publication
mars 2012
Auteurs
Membres identifiés du Cancéropôle Est :
Pr SCHMIT Anne-Catherine
Tous les auteurs :
Janski N, Masoud K, Batzenschlager M, Herzog E, Evrard JL, Houlne G, Bourge M, Chaboute ME, Schmit AC
Lien Pubmed
Résumé
Microtubules (MTs) are crucial for both the establishment of cellular polarity and the progression of all mitotic phases leading to karyokinesis and cytokinesis. MT organization and spindle formation rely on the activity of gamma-tubulin and associated proteins throughout the cell cycle. To date, the molecular mechanisms modulating gamma-tubulin complex location remain largely unknown. In this work, two Arabidopsis thaliana proteins interacting with gamma-tubulin complex protein3 (GCP3), GCP3-interacting protein1 (GIP1) and GIP2, have been characterized. Both GIP genes are ubiquitously expressed in all tissues analyzed. Immunolocalization studies combined with the expression of GIP-green fluorescent protein fusions have shown that GIPs colocalize with gamma-tubulin, GCP3, and/or GCP4 and reorganize from the nucleus to the prospindle and the preprophase band in late G2. After nuclear envelope breakdown, they localize on spindle and phragmoplast MTs and on the reforming nuclear envelope of daughter cells. The gip1 gip2 double mutants exhibit severe growth defects and sterility. At the cellular level, they are characterized by MT misorganization and abnormal spindle polarity, resulting in ploidy defects. Altogether, our data show that during mitosis GIPs play a role in gamma-tubulin complex localization, spindle stability and chromosomal segregation.
Référence
Plant Cell. 2012 Mar;24(3):1171-87