Takemura Kenshin, Motomura Taisei, Takagi Yuko
Sensing System Research Center, National Institute of Advanced Industrial Science and Technology (AIST), Tosu 841-0052, Saga, Japan.
Biomedical Research Institute, National Institute of Advanced Industrial Science and Technology (AIST), Tsukuba 305-8566, Ibaraki, Japan.
Biomimetics (Basel). 2024 Sep 28;9(10):588. doi: 10.3390/biomimetics9100588.
Biospecimen imaging is essential across various fields. In particular, a considerable amount of research has focused on developing pretreatment techniques, ranging from freeze-drying to the use of highly conductive polymers, and on advancements in instrumentation, such as cryogenic electron microscopy. These specialized techniques and equipment have facilitated nanoscale and microscale bioimaging. However, user access to these environments remains limited. This study introduced a novel technique to achieve high conductivity in bioimaging by employing a magnetically controlled sputtering cathode to facilitate low-temperature deposition and low-electron bombardment. This approach allows for the convenient high-magnification observation of highly structured three-dimensional specimens, such as pill bugs and butterfly wings, and fragile specimens, such as single-cell protozoan parasites, using metal deposition only. Furthermore, it is easily accessible in the field of bioimaging because it does not require any pretreatment and enables surface analysis of biospecimens with an electron microscope using only a single pretreatment process. Protozoa, which are microorganisms, were successfully observed at high magnification without structural changes due to thermal denaturation. Furthermore, metallic film deposition and electrochemical signal measurements using these metallic films were achieved in pill bugs.
生物样本成像在各个领域都至关重要。特别是,大量研究集中在开发预处理技术,从冷冻干燥到使用高导电性聚合物,以及仪器设备的进步,如低温电子显微镜。这些专门技术和设备推动了纳米级和微米级生物成像。然而,用户对这些环境的访问仍然有限。本研究引入了一种新技术,通过采用磁控溅射阴极促进低温沉积和低电子轰击,在生物成像中实现高导电性。这种方法仅通过金属沉积,就能方便地对高度结构化的三维样本(如鼠妇和蝴蝶翅膀)以及脆弱样本(如单细胞原生动物寄生虫)进行高倍率观察。此外,它在生物成像领域易于获取,因为它不需要任何预处理,仅通过单一预处理过程就能使用电子显微镜对生物样本进行表面分析。原生动物作为微生物,在高倍率下成功观察到,且未因热变性而发生结构变化。此外,在鼠妇身上实现了金属膜沉积以及使用这些金属膜进行的电化学信号测量。
