Structural inheritance in Paramecium: ultrastructural evidence for basal body and associated rootlets polarity transmission through binary fission

Abstract

One main difference between basal bodies and centrioles resides in the expression of their polarity: centrioles display a structural nine-fold radial symmetry, whereas basal bodies express a circumferential polarity, thanks to their asymmetric set of rootlets. The origin of this polarity during organelle duplication still remains under debate: is it intrinsic to the nine-fold structure itself (i.e. the nine microtubular triplets are not equivalent) or imposed by its immediate environment at time of assembly? We have reinvestigated this problem using the Ciliate Paramecium, in which the pattern of basal body duplication is well known. In this cell, all basal bodies produced within ciliary rows appear immediately anterior to parental ones. Observations on cells fixed with the tannic acid protocol suggest that, to be competent for basal body assembly, parental basal bodies have to be individually associated with a complete set of rootlets (monokinetid structure). During pro-basal body assembly, full microtubular triplets were detected according to a random circumferential sequence; during the whole process, the new basal body and its associated rootlets maintained structural relations with the parental monokinetid structure by way of specific links. These results strongly suggest that basal body and associated rootlets (kinetid) polarity is driven by its immediate environment and provide a basis for the structural heredity property observed by Sonneborn some decades ago.