Multilevel regulation of surface antigen gene expression in Paramecium tetraurelia.

Abstract

A family of genes is responsible for production of surface antigenic components of Paramecium tetraurelia. These surface proteins are expressed in a mutually exclusive manner. Individuals rarely display more than one type. However, changes in environmental conditions can cause different surface proteins which replace preexisting types to be expressed. We investigated the nature of regulation of the genes for the A, C, and H surface antigens of P. tetraurelia. A system for in vitro run-on transcription was developed from crude Paramecium extracts and used in this analysis. The genes for surface antigens A and H were controlled at the level of transcription. However, the gene for surface antigen C demonstrated both transcriptional and posttranscriptional control, depending on the serotype being expressed. When animals expressed serotype A, the gene for surface antigen C was not transcribed. However, when animals expressed serotype H, the gene for surface antigen C was actively transcribed and stable surface antigen C mRNA was present in the cells, although surface antigen C was not detectable by serotype testing or by a salt-alcohol extraction method. The kinetics of transformation from serotype H to serotype C were determined by using the in vitro transcription system and monitoring steady-state RNA levels. During the transition, serotype A transcription was detected in run-on transcription experiments, although this RNA did not accumulate. The results indicate that serotype expression is controlled at several levels and that not all serotype genes are controlled in the same manner.