Usup G, Kulis D M, Anderson D M
Marine Biological Laboratory, Boston University Marine Program, Massachusetts.
Nat Toxins. 1994;2(5):254-62. doi: 10.1002/nt.2620020503.
Toxin production of a Malaysian isolate of the toxic red tide dinoflagellate Pyrodinium bahamense var. compressum was investigated at various stages of the batch culture growth cycle and under growth conditions affected by temperature, salinity, and light intensity variations. In all the experiments conducted, only 5 toxins were ever detected. Neosaxitoxin (NEO) and gonyautoxin V (GTX5) made up 80 mole percent or more of the cellular toxin content and saxitoxin (STX), GTX6 and decarbamoylsaxitoxin (dcSTX) made up the remainder. No gonyautoxins I-IV or C toxins were ever detected. In nutrient-replete batch cultures, toxin content rapidly peaked during early exponential phase and just as rapidly declined prior to the onset of plateau phase. Temperature had a marked effect on toxin content, which increased 3-fold as the temperature decreased from the optimum of 28 degrees C to 22 degrees C. Toxin content was constant at salinities of 24% or higher, but increased 3-fold at 20%. Toxin content decreased 2-fold and chlorophyll content increased 3-fold when light intensity was reduced from 90 to 15 microE m-2 s-1. This accompanied a 30% decrease in growth rate. Toxin composition (mole % individual toxin cell-1) remained constant throughout the course of the nutrient-replete culture and during growth at various salinities, but varied significantly with temperature and light intensity changes. At 22 degrees C, GTX5 was 25 mole % and NEO was 65 mole %, while at 34 degrees C, GTX5 increased to 55 mole % and NEO decreased proportionally to 40 mole %. When light intensity was reduced from 90 to 15 microE m-2 s-1, NEO decreased from 55 to 38 mole %, while GTX5 increased from 40 to 58 mole %. These data suggest that low light and high temperature both somehow enhance sulfo-transferase activity.(ABSTRACT TRUNCATED AT 250 WORDS)
对一株来自马来西亚的有毒赤潮甲藻——巴哈马梨甲藻缢缩变种(Pyrodinium bahamense var. compressum)在分批培养生长周期的不同阶段,以及在受温度、盐度和光照强度变化影响的生长条件下的毒素产生情况进行了研究。在所有进行的实验中,仅检测到5种毒素。新石房蛤毒素(NEO)和膝沟藻毒素V(GTX5)占细胞毒素含量的80摩尔百分比或更多,其余部分由石房蛤毒素(STX)、GTX6和脱氨甲酰基石房蛤毒素(dcSTX)组成。从未检测到膝沟藻毒素I-IV或C毒素。在营养充足的分批培养中,毒素含量在指数生长期早期迅速达到峰值,并在稳定期开始前同样迅速下降。温度对毒素含量有显著影响,当温度从最适的28℃降至22℃时,毒素含量增加了3倍。在盐度为24%或更高时,毒素含量保持恒定,但在20%时增加了3倍。当光照强度从90微爱因斯坦·米-2·秒-1降至15微爱因斯坦·米-2·秒-1时,毒素含量下降了2倍,叶绿素含量增加了3倍。这伴随着生长速率下降30%。在营养充足的培养过程中以及在不同盐度下生长期间,毒素组成(摩尔百分比/单个毒素细胞-1)保持恒定,但随温度和光照强度变化而显著变化。在22℃时,GTX5为25摩尔百分比,NEO为65摩尔百分比,而在34℃时,GTX5增加到55摩尔百分比,NEO相应地降至40摩尔百分比。当光照强度从90微爱因斯坦·米-2·秒-1降至15微爱因斯坦·米-2·秒-1时,NEO从55摩尔百分比降至38摩尔百分比,而GTX5从40摩尔百分比增加到58摩尔百分比。这些数据表明,低光照和高温均以某种方式增强了磺基转移酶的活性。(摘要截短于250字)
