In vivo formation of a stable pentameric (P2alpha/P1beta)-P0-(P1alpha/P2beta) ribosomal stalk complex in Saccharomyces cerevisiae.

Heterodimers of acidic proteins P1alpha/P2beta and P1beta/P2alpha bind to P0 and are fundamental for the assembly of the ribosomal stalk. However, different inconsistencies are found in the literature regarding additional P protein heterodimer formations and their individual interactions with P0. Using the two-hybrid approach, we have found results that help ...
to clarify these interactions. Thus, we have found that neither P1 nor P2 directly interact with P0 unless the endogenous heterodimer partner is being expressed in the cell. In addition, a P2-free amino end is a requisite in these heterodimers for binding to P0. With regard to the two-hybrid interactions between P1 and P2, the known canonical P1alpha-P2beta and P1beta-P2alpha interactions do not depend on either a free amino end or the presence of endogenous P0, P1 or P2 proteins. Furthermore, the non-canonical P1beta-P2beta pair also behaves similarly, although this interaction is weaker. Interestingly, P1alpha-P2alpha, P1alpha-P1beta and P2alpha-P2beta two-hybrid interactions were also detected, although in these cases the endogenous P proteins were involved. Thus, these positive interactions are the consequence of the interaction between two canonical heterodimers. As the ribosome anchorage protein P0 is also necessary, the results suggest that, in vivo, all five P proteins form a complex, independent of the ribosome, containing the two canonical heterodimers and P0. This complex has been isolated in cells expressing a P0 protein unable to bind to the ribosome. Copyright (c) 2010 John Wiley & Sons, Ltd.
Mesh Terms:
Acetoin, Anaerobiosis, Butylene Glycols, Cell Culture Techniques, Culture Media, Escherichia coli, Genetic Engineering, Metabolic Networks and Pathways, Mutation, Phylogeny, Plasmids
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Date: Mar. 12, 2010
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