Role of the Variable Domain in Modulating Potato Spindle Tuber Viroid Replication

Abstract

Potato spindle tuber viroid (PSTVd) is believed to undergo a series of specific structural transitions during replication. The variable domain of PSTVd is known to contain sequences that are important for replication/accumulation as well as one of three “premelting regions” which control breakdown of the native structurein vitro.We have examined the structural and biological effects of five single and two double nucleotide substitutions within premelting region 3 in an effort to isolate temperature-sensitive mutations affecting PSTVd replication or pathogenesis. None of these mutants replicated as rapidly as the wild type, and a variety of spontaneous sequence changes were detected in their progeny. Higher temperatures were able to partially overcome the inhibition of replication associated with a more stable secondary structure, but no well-defined temperature-sensitive PSTVd mutants were identified. Selective pressures arising from the interaction of assay temperature and structural stabilityin vivoappear capable of moving PSTVd populations between peaks of relatively high fitness. Depending on the exact nature and location of the mutation, selection may occur at the level of either the plus or the minus strand.