旋链角毛藻生长与胞内多聚磷酸盐对磷的响应研究

Study on the growth and cellular polyphosphates of Chaetoceros curvisetus under different phosphate conditions

  • 摘要: 本研究分析了不同磷酸盐培养条件下旋链角毛藻(Chaetoceros curvisetus)不同生长阶段的生长情况以及藻细胞内多聚磷酸盐(polyphosphate,PolyP)的变化特征。结果表明:在高磷培养条件下,旋链角毛藻最高细胞密度可达4.99×109 cell/L,细胞核PolyP和短链PolyP在起始期显著高于指数生长期,细胞核长链PolyP在起始期显著高于指数生长期和维持期(P<0.05);在低磷培养条件下,旋链角毛藻最高细胞密度为9.35×107 cell/L,藻类细胞质长链PolyP在指数生长期显著高于维持期。无论是高磷还是低磷培养条件下,旋链角毛藻细胞总PolyP都与藻细胞密度呈显著负相关性(P<0.05)。另外,在高磷培养条件下旋链角毛藻细胞密度与细胞核长、短链PolyP呈显著负相关性,而在低磷培养条件下旋链角毛藻细胞密度与细胞质、细胞核长链PolyP呈显著负相关性。本研究结果可为阐明旋链角毛藻赤潮生消过程中磷酸盐的储存利用机制提供一种新的思路。

     

    Abstract: Chaetoceros curvisetus is an important bloom-forming species in China. In this study, the growth characteristics of C. curvisetus at different growth phases and the changes of polyphosphate (PolyP) in algal cells at different phosphate concentrations were analyzed. It was found that under the condition of high phosphorus culture, the maximum cell density of C. curvisetus was 4.99×109 cell/L, and the nuclear PolyP and short-chain PolyP in the initial phase were significantly higher than those in the growth phase, and the nuclear long-chain PolyP in the initial phase was significantly higher than those in the growth phase and maintenance phase (P<0.05). Under the condition of low phosphorus culture, the maximum cell density of C. curvisetus was 9.35×107 cell/L, the long-chain PolyP in the cytoplasm of C. curvisetus in the growth phase was significantly higher than that in the maintenance phase. Whether under high or low phosphorus cultivation conditions, the total PolyP in the cells of C. curvisetus was negatively correlated with the cell density (P<0.05). In addition, the cell density of C. curvisetus was negatively correlated with the long-chain and short-chain PolyP in the nucleus under high phosphorus culture conditions, while it was negatively correlated with the long-chain PolyP in the cytoplasm and nucleus under low phosphorus culture conditions. The results of this study can provide a new theoretical basis for clarifying the storage and utilization mechanism of phosphate during the bloom of C. curvisetus.

     

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