Poisoning of humans resulting from consumption of water affected by the toxic cyanobacterium Cylindrospermopsis raciborskii was first reported almost 20 years ago from Palm Island, northern Queensland, Australia. Since that time a great deal has been learned about this organism and cylindrospermopsin (CYN), the toxin it produces. This article reviews the information now available to us. It summarizes aspects of the chemistry of the toxin-now known to be produced by some cyanobacterial species other than C. raciborskii-and its biosynthesis and chemical synthesis in vitro, as well as its detection and measurement by chemical and biological assay. Some of the factors affecting toxin production by cultured isolates of C. raciborskii are reviewed and the conditions that cause its release from the cells described. The occurrence of CYN in water bodies and the management strategies used to minimize the harmful effects of the toxin are outlined. These include a range of water-treatment practices now in place to remove CYN-producing organisms and/or to neutralize the toxin together with some management procedures that have been tried, with varying degrees of success, to prevent buildup of blooms of the offending organisms. Some of the public-health considerations arising from exposure to water supplies affected by CYN are summarized along with the risk factors and guidance values as they are currently applied. Among the more recent developments described are those that come from the application of molecular techniques for characterizing toxic and nontoxic strains and for exploring the genetic aspects of CYN production.
The potentially toxic freshwater cyanobacterium Cylindrospermopsis raciborskii has become increasingly prevalent in tropical and temperate water bodies worldwide. This paper investigates the effects of different nitrogen sources (NO 3 ؊ , NH 4 ؉ , and omission of a fixed form of nitrogen) on the growth rates, morphologies, and cylindrospermopsin ( ؉ and the statistically significant increase in vegetative cell length (nitrogen depleted < NO 3 ؊ < NH 4 ؉ ). The morphological changes induced by different nitrogen sources were consistent for all isolates, despite measurable differences in vegetative-cell and heterocyst dimensions among isolates. Such induced morphological variation has implications for Cylindrospermopsis taxonomy, given that distinctions between species are based on minor and overlapping differences in cell lengths and widths. The close phylogenetic association among all seven isolates was confirmed by the high level (>99.8%) of similarity of their 16S rRNA gene sequences. Another genetic technique, analysis of the HIP1 octameric-palindrome repeated sequence, showed greater heterogeneity among the isolates and appears to be a useful method for distinguishing among isolates of C. raciborskii.
Cylindrospermopsis raciborskii Woloszynska is a prominent constituent of a number of water bodies in northern Australia. In Solomon Dam, this species occurs as two distinct morphological forms, one with straight trichomes and one with coiled trichomes. Isolates of the two forms have been grown in pure culture and have been shown to maintain their respective characteristic form over successive generations. Both forms were similar with respect to cylindrospermopsin content expressed as a percentage of freeze-dried culture material, ranging from 0.14% to 0.20%, depending on the N source provided in the medium. A morphological comparison between natural populations of the two forms showed significant differences in vegetative, heterocyst, and akinete cell dimensions. These characteristics are the primary taxonomic criteria at the species level in this genus. In culture, the coiled form grew slightly faster than the straight form over the range of conditions investigated in this study. The coiled form was better suited to growth under low-light conditions. These clear and consistent morphological and physiological differences contrast with the 99.8% similarity between the two forms in their 16S rRNA gene nucleotide sequences. It is concluded that although taxonomic separation of the two forms at the species level might not be warranted, the two strains investigated are clearly distinct morphotypes, and it is recommended that they be so recorded in monitoring programs.
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