Department of Microbiology, University of Tennessee, Knoxville, Tennessee, United States of America.
Department of Plant Pathology and Nebraska Center for Virology, University of Nebraska, Lincoln, Nebraska, United States of America.
PLoS One. 2019 Mar 14;14(3):e0211755. doi: 10.1371/journal.pone.0211755. eCollection 2019.
Best practices in laboratory culture management often include cryopreservation of microbiota, but this can be challenging with some virus particles. By preserving viral isolates researchers can mitigate genetic drift and laboratory-induced selection, thereby maintaining genetically consistent strains between experiments. To this end, we developed a method to cryopreserve the model, green-alga infecting virus, Paramecium bursaria Chlorella virus 1 (PBCV-1). We explored cryotolerance of the infectivity of this virus particle, whereby freezing without cryoprotectants was found to maintain the highest infectivity (~2.5%). We then assessed the cryopreservation potential of PBCV-1 during an active infection cycle in its Chlorella variabilis NC64A host, and found that virus survivorship was highest (69.5 ± 16.5%) when the infected host is cryopreserved during mid-late stages of infection (i.e., coinciding with virion assembly). The most optimal condition for cryopreservation was observed at 240 minutes post-infection. Overall, utilizing the cell as a vehicle for viral cryopreservation resulted in 24.9-30.1 fold increases in PBCV-1 survival based on 95% confidence intervals of frozen virus particles and virus cryopreserved at 240 minutes post-infection. Given that cryoprotectants are often naturally produced by psychrophilic organisms, we suspect that cryopreservation of infected hosts may be a reliable mechanism for virus persistence in non-growth permitting circumstances in the environment, such as ancient permafrosts.
实验室培养管理的最佳实践通常包括对微生物群进行冷冻保存,但某些病毒颗粒可能会对此造成挑战。通过保存病毒分离物,研究人员可以减轻遗传漂移和实验室诱导的选择,从而在实验之间保持遗传上一致的菌株。为此,我们开发了一种冷冻保存模式生物绿藻感染病毒,即 Paramecium bursaria Chlorella virus 1(PBCV-1)的方法。我们探索了这种病毒颗粒的冷冻耐受性,发现没有冷冻保护剂的冷冻可以保持最高的感染力(~2.5%)。然后,我们评估了 PBCV-1 在其 Chlorella variabilis NC64A 宿主中的活跃感染周期中的冷冻保存潜力,发现当感染宿主在感染的中晚期(即与病毒体组装同时)冷冻保存时,病毒存活率最高(69.5±16.5%)。冷冻保存的最佳条件是在感染后 240 分钟观察到的。总体而言,利用细胞作为病毒冷冻保存的载体,使 PBCV-1 的存活率增加了 24.9-30.1 倍,这是基于冷冻病毒颗粒和在感染后 240 分钟冷冻保存的病毒的 95%置信区间得出的。鉴于冷冻保护剂通常是由嗜冷生物自然产生的,我们怀疑在非生长允许的环境条件下,如古老的永久冻土层中,感染宿主的冷冻保存可能是病毒持续存在的可靠机制。
