par Parma, Jasmine 
;Duprez, Laurence ;Van Sande, Jacqueline ;Paschke, Ralf ;Tonacchera, Massimo ;Dumont, Jacques ;Vassart, Gilbert
Référence Molecular and cellular endocrinology, 100, 1-2, page (159-162)
Publication Publié, 1994-04
;Duprez, Laurence ;Van Sande, Jacqueline ;Paschke, Ralf ;Tonacchera, Massimo ;Dumont, Jacques ;Vassart, Gilbert Référence Molecular and cellular endocrinology, 100, 1-2, page (159-162)
Publication Publié, 1994-04
Article révisé par les pairs
| Résumé : | Membrane receptors have appeared early in evolution as the means for the unicellular organism to sense its environment. With the emergence of social cellular life in multicellular organisms, membrane receptors have acquired the additional functions of sensing the presence of similar cells (as in the aggregation phenomenon of Dictyostelium discoideum) (Klein et al., 1988) or the presence of the mate (Saccharomyces cerevisiae) (Cross et al., 1988), and to detect endocrine signals emitted by cells in distant tissues. As the latter function is central to homeostasis and regulation of cell growth, the downstream regulatory cascades under receptor control are the subject of intense research with implications in virtually all fields of biomedical science. The impact of the analysis of tyrosine kinase-activated cascades on our understanding of carcinogenesis is but one example of such an advance. |
