引用本文: | 程婷,杨毅玲,李琪,甘南琴.噬藻体裂解蓝藻应用初探——以噬藻体A-4(L)侵染鱼腥藻PCC 7120为例.湖泊科学,2023,35(5):1573-1583. DOI:10.18307/2023.0516 |
| Cheng Ting,Yang Yiling,Li Qi,Gan Nanqin.Appling cyanophage to lyse cyanobacterium—Taking the infection of Anabaena sp. PCC 7120 by cyanophage A-4 (L) as an example. J. Lake Sci.2023,35(5):1573-1583. DOI:10.18307/2023.0516 |
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摘要: |
噬藻体在蓝藻水华发生后期快速增殖被认为是蓝藻水华消亡的重要途径,但有关噬藻体的应用却鲜有报道。本研究以噬藻体A-4(L)侵染鱼腥藻PCC 7120为例,开展光照、温度和感染复数影响噬藻体裂解藻细胞的探究,推定噬藻体在裂解蓝藻应用中的最佳投放时间及投放剂量。结果显示,光照是影响噬藻体裂解藻细胞最关键的因子,A-4(L)在全光照条件下且感染复数为0.01时,8 h即可快速裂解鱼腥藻PCC 7120,但在全黑暗条件下无裂解;光照时长越长,A-4(L)对藻细胞的裂解越快。进一步研究发现,A-4(L)在藻细胞表面的吸附不依赖光照,但在黑暗条件下A-4(L)在藻细胞内的复制受到抑制,推测A-4(L)的复制可能与宿主的光合作用有关。在15~25℃范围内,提高温度会加快A-4(L)裂解藻细胞的速度,且胞外A-4(L)效价随着温度升高而增加。在10-6~1范围内,感染复数每提高两个数量级,A-4(L)裂解藻细胞则提前4 h。综合上述结果,在7:00向湖水样品中投加感染复数为0.01的噬藻体可使PCC 7120藻细胞生物量在24 h内大幅度降低76%。本研究为蓝藻水华发生时投加噬藻体控制蓝藻种群密度提供一定基础。 |
关键词: 噬藻体A-4(L) 蓝藻 鱼腥藻7120 裂解 |
DOI:10.18307/2023.0516 |
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基金项目:国家重点研发计划项目 (2018YFA0903100)资助。 |
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Appling cyanophage to lyse cyanobacterium—Taking the infection of Anabaena sp. PCC 7120 by cyanophage A-4 (L) as an example |
Cheng Ting1,2, Yang Yiling1, Li Qi1, Gan Nanqin1
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1.State Key Laboratory of Freshwater Ecology and Biotechnology, Institute of Hydrobiology, Chinese Academy of Sciences, Wuhan 430072, P.R. China;2.University of Chinese Academy of Sciences, Beijing 100049, P.R. China
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Abstract: |
Cyanophage can proliferate rapidly in the late stages of cyanobacterial blooms. Cyanophage lysis of cyanobacteria has been considered an important pathway that can induce cyanobacterial apoptosis. However, few reports have focused on the use of cyanophages. In this study, the infection of Anabaena sp. PCC 7120 by cyanophage A-4(L) was used as an example to investigate the influence of illumination, temperature and multiplicity of infection on cyanophage lysis, which can help us to determine the best timing and concentration of cyanophage addition. Our results showed that illumination was a key factor affecting cell lysis. A-4(L) lysed Anabaena sp. PCC 7120 after 8 hours at a MOI of 0.01 during continuous illumination, whereas no lysis occurred during dark incubation. In addition, prolonged illumination resulted in more rapid infection. Further studies showed that adsorption was not dependent on illumination. However, intracellular replication of cyanophage DNA was inhibited under dark conditions. It is speculated that the replication of A-4(L) DNA may be related to the photosynthesis of the host. Within the range of 15-25℃, higher temperature improved the lysis rate. The extracellular A-4(L) titer also increased with higher temperature. In the range of 10-6-1, A-4(L) lysed cells 4 h earlier when the MOI increased by two orders of magnitude. Taken together, we proposed the addition of cyanophage at a MOI of 0.01 between 7:00 and 12:00 for the purpose of bloom treatment. Further field experiments showed that the addition of cyanophage at a MOI of 0.01 at 7:00 am did indeed significantly reduce the biomass of PCC7120 algal cells by 76% within 24 hours. This study provides a basis for using cyanophages to control the abundance of cyanobacteria during cyanobacterial blooms. |
Key words: Cyanophage A-4(L) Cyanobacteria Anabaena sp. PCC 7120 lysis |