We have isolated a nucleus-basal body complex from Chlamydomonas reinhardtii.The complex is strongly immunoreactive to an antibody generated against a major protein constituent of isolated Tetraselmis striata flagellar roots (Salisbury, J. L., A. Baron, B. Surek, and M. Melkonian, J. Cell Biol.,. Electrophoretic and immunoelectrophoretic analysis indicates that, like the Tetraselmis protein, the Chlamydomonas antigen consists of two acidic isoforms of ~20 kD. Indirect immunofluorescent staining of nucleus-basal body complexes reveals two major fibers in the connector region, one between each basal body and the nucleus. The nucleus is also strongly immunoreactive, with staining radiating around much of the nucleus from a region of greatest concentration at the connector pole. Calcium treatment causes shortening of the connector fibers and also movement of nuclear DNA towards the connector pole. Electron microscopic observation of negatively stained nucleus-basal body complexes reveals a cluster of ~6-nm filaments, suspected to represent the connector, between the basal bodies and nuclei.A mutant with a variable number of flagella, vfl-2-220, is defective with respect to the nucleus-basal body association. This observation encourages us to speculate that the nucleusbasal body union is important for accurate basal body localization within the cell and/or for accurate segregation of parental and daughter basal bodies at cell division.A physical association between nuclei and basal bodies or centrioles has been observed in a variety of algal, protozoan, and metazoan cells, although the nature of the association, in terms of both structure and function, has been obscure. We believe it likely that fibrous connectors homologous to those described here for Chlamydomonas are general features of centriole-bearing eucaryotic cells.The basal body cycle of Chlamydomonas resembles the classical centriole cycle in most, if not all, essential respects, and so an analysis of the Chlamydomonas basal body cycle may provide information about centriole cycles in general. The cytological behavior of centrioles during the cell cycle is well known (43). Landmark events in the centriole cycle include duplication during interphase, migration to the nuclear poles before mitosis, presence at the mitotic spindle poles, and equal segregation to daughter cells at division. Despite a very large body of literature on centriole structure and cytology, the cellular function of centrioles remains obscure, and most of the questions raised when centrioles were observed more than one hundred years ago remain unanswered. Why are centrioles maintained in such a wide variety of organisms? How do centriole duplication and segregation occur? Is proper subcellular localization of centrioles important to their function?Protozoan centrioles are generally referred to as basal bodies, and we will follow this convention throughout this paper. But the reader should bear in mind that in many cell types, both metazoan and protozoan, a basal body or centri...
