Interactions between genes involved in exocytotic membrane fusion in paramecium.

Abstract

Abstract Crosses between members of two independent collections of Paramecium tetraurelia mutants blocked in the final membrane fusion step of trichocyst release (nd mutants) allowed us to define 13 complementation groups comprising 23 alleles. The mutant nd9a was then used as a target in a mutagenesis experiment designed to screen both revertants and new mutants in order to identify interacting genes. This mutant was chosen because it is the best known of its class to date and seems to be altered in assembly of the material connecting the trichocyst membrane to the plasma membrane and in assembly of the "rosette," a complex array of intramembranous particles in the plasma membrane at the trichocyst insertion sites. No revertants were obtained but two new mutants deficient for rosette assembly were identified, nd16b and nd18, whose gene products appear to interact with that of nd9. Indeed, the double mutants grown at 18 degrees, a permissive temperature for each of the single mutants, are characterized by a deficiency in exocytosis and in rosette assembly, as are also double mutants combining other allelic forms of the same genes. Moreover, aberrant dominance relationships among alleles of nd9 and of nd16 indicate the existence of interactions between identical subunits, which most likely assemble into multimeric structures. The nd16 gene product was shown by microinjection experiments to be a cytosolic factor, as is the nd9 gene product. It is therefore tempting to propose that the nd16 gene product also belongs to the connecting material and is involved in rosette assembly, in cooperation with nd9 and nd18.