info:eu-repo/semantics/article
Structure of yeast regulatory subunit: a glimpse into the evolution of PKA signaling
Fecha
2010-11Registro en:
Rinaldi, Jimena Julieta; Wu, Jian; Yang, Jie; Ralston, Corie Y.; Sankaran, Banumathi; et al.; Structure of yeast regulatory subunit: a glimpse into the evolution of PKA signaling; Elsevier; Structure; 18; 11; 11-2010; 1471-1482
1878-4186
Autor
Rinaldi, Jimena Julieta
Wu, Jian
Yang, Jie
Ralston, Corie Y.
Sankaran, Banumathi
Moreno, Silvia Margarita
Taylor, Susan S.
Resumen
The major cAMP receptors in eukaryotes are the regulatory (R) subunits of PKA, an allosteric enzyme conserved in fungi through mammals. While mammals have four R-subunit genes, Saccharomyces cerevisiae has only one, Bcy1. To achieve a molecular understanding of PKA activation in yeast and to explore the evolution of cyclic-nucleotide binding (CNB) domains, we solved the structure of cAMP-bound Bcy1(168-416). Surprisingly, the relative orientation of the two CNB domains in Bcy1 is very different from mammalian R-subunits. This quaternary structure is defined primarily by a fungi-specific sequence in the hinge between the αB/αC helices of the CNB-A domain. The unique interface between the two CNB domains in Bcy1 defines the allosteric mechanism for cooperative activation of PKA by cAMP. Some interface motifs are isoform-specific while others, although conserved, play surprisingly different roles in each R-subunit. Phylogenetic analysis shows that structural differences in Bcy1 are shared by fungi of the subphylum Saccharomycotina.