Detection of stable pre-rRNA in toxigenic Pseudo-nitzschia species.

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Nucleotide sequence analysis of ribosomal DNA (rDNA) spacer regions is useful for taxonomic comparisons of closely related microorganisms. These regions have been less useful for routine microbial identification and detection, partly because rRNA precursors (pre-rRNAs) in microbial cells are assumed to be too labile to be detectable by high-throughput probe hybridization methods. We characterized the sequence diversity and physiological stability of pre-rRNA in the toxigenic marine diatoms Pseudo-nitzschia australis, P. multiseries, and P. pungens. As with nucleotide sequences of the first internal transcribed spacer (ITS1) reported previously, sequences of ITS2 and the 5' external transcribed spacer (ETS1) exhibited considerable divergence among these species, including large insertions-deletions detectable by PCR-based spacer length analysis. In slot blot hybridization assays on RNA extracted from lysates of Pseudo-nitzschia cells, oligonucleotide probes directed to pre-rRNA spacers generated much stronger signals than did complementary probes directed to the coding strands of the rDNAs, indicating that the pre-rRNA-targeted probes detected multicopy transcripts. A group of probes directed to a discrete 90-base region within the ITS1 pre-rRNA gave no detectable signal, suggesting that this region is degraded early in the rRNA maturation pathway. Other pre-rRNA regions were always detectable and, in marked contrast to prokaryotic systems analyzed in this manner, were stable and abundant in both actively dividing and nondividing cells. Long, multilabeled RNA probes, which would exhibit considerable cross-reactivity if directed to mature rRNA sequences, detected species-specific pre-rRNA sequences from as few as 1,000 cells. Pre-rRNA is a potentially useful molecular target for detecting and identifying Pseudo-nitzschia species and possibly other unicellular eukaryotes as well.

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