Evidence for differential regulation of two classes of poly(A) RNA inBlastocladiella emersonii zoospores

The poly(A) RNA in zoospores ofBlastocladiella emersonii contains RNA synthesized during the growth phase (GP poly(A) RNA) and late sporulation (LS poly(A) RNA). LS poly(A) RNA synthesized during the final 30 minutes of sporulation is bound exclusively to polyribosomes which comprise approximately 50% of the total zoospore ribosome population. In contrast, GP poly(A) RNA is bound to zoospore monoribosomes. During the final 30 minutes of sporulation, GP poly(A) RNA which is bound to polyribosomes makes a transition to monoribosomes. Zoospore monoribosomes and RNA extracted from zoospore monoribosomes are inactivein vitro while both zoospore polyribosomes and RNA extracted from zoospore polyribosomes stimulate protein synthesis in the wheat germin vitro system. Sedimentation of poly(A) RNA from zoospore monoribosomes on dimethyl sulfoxide gradients revealed that the GP poly(A) RNA was of sufficiently high molecular weight to code for average-sized proteins. These denaturing gradients failed to activate the zoospore monoribosome RNA. The results suggest that the inability to translate zoospore monoribosomesin vitro is due to some property or modification of the zoospore monoribosome poly(A) RNA. Zoospore monoribosomes bound to poly(A) RNA contain an average of two tRNA molecules while zoospore polyribosomes have an average of less than one tRNA bound. This suggests the two classes of ribosomes are blocked at different steps in the elongation process.