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Label-free Measurement of Cell Viability via Counting Cells Attached on Affinity Substrates
Ahn, Junhyoung,Park, Jina,Kim, Yeon-Gu,Lee, Eun Gyo,Kim, Min-Gon,Shin, Yong-Beom 한국생물공학회 2014 Biotechnology and Bioprocess Engineering Vol.19 No.2
The commonly used trypan blue dye exclusion method and other modified cell viability methods, such as fluorescein dye and tetrazolium dye exclusion, artificially introduce toxic chemicals to cells and, thus, alter cellular organelles when measuring cell viability. Therefore, cell viability could be affected by the processes currently used to observe viability. In this study, the cell viability of Chinese hamster ovary (CHO) cells was measured by simply counting attached cells after the cultured CHO cells were attached on a Concanavalin A (Con A) substrate. The efficiency of cell attachment to Con A surfaces was different for live and dead cells allowing the cell viability of CHO cells to be measured without any chemical modifications to the cells.
전도성 고분자 나노임프린트 패턴 상의 HeLa 세포 배양
안준형(Junhyoung Ahn),박경숙(Kyungsook Park),이수옥(Suok Lee),정상희(Sanghee Jung),임형준(Hyungjun Lim),신용범(Yong-Beom Shin),이재종(JaeJong Lee) 대한기계학회 2017 大韓機械學會論文集B Vol.41 No.1
일반적인 세포 배양 기술은 평평한 표면에 세포 부착을 위한 화학적, 생화학적 표면처리를 하는 것이 기본이지만, 요즘 들어 마이크로나 나노 크기의 구조체를 형성하여 세포 부착을 하는 연구들이 많이 진행되고 있다. 본 연구에서는 전도성 고분자인 피롤과 나노임프린트 기술을 이용하여 300 nm 선 패턴과 150 nm 원기둥 패턴의 나노구조체 제작 후 대표적인 암세포인 HeLa 세포를 배양하여, 주사전자현미경과 공초점 현미경을 이용하여 세포의 부착 특성을 연구하였다. 상용 페트리 접시와 평면 피롤에서는 세포들이 부정형의 형태로 부착 및 배양되었지만, 선폭 300 nm 선패턴 상에서는 길이 방향으로 세포가 부착되고 세포 내의 핵과 액틴 역시 배열되어 있고, 지름 150 nm 원기둥 패턴 상에서는 단일 세포로 고정되고 세포 내 액틴은 방사상으로 나노구조체에 고정되어 있는 것을 확인할 수 있었다. In bioscience and biotechnology, the research of fundamental life mechanisms and their diseases caused by insufficiency is important. The study of a whole organism is difficult and sometimes impossible because of DNA, RNA, proteins, cellular organelles, various cells, and organs. Cell cultures can provide a simple method for researching cellular mechanisms and conditions, both in terms of physiological performance, and in response to chemical stimulation. According to conventional cell culture methodology, the flat surface is used with surface treatments for cell adhesion on the surface. Micro- and nanoscale patterns have been developed with chemical and biochemical modifications for cell immobilization. In this study, HeLa cell culture on nanostructures patterns was studied, including the 300 nm line and 150 nm pillar structures, using nanoimprint lithography and pyrrole as a biocompatible conducting polymer.
Lee, Seung-Woo,Ahn, Junhyoung,Kim, Min-Gon,Shin, Yong-Beom,Lee, Jae Jong,Lim, Ki-Pil,Kim, Ki-Bum American Scientific Publishers 2010 Journal of nanoscience and nanotechnology Vol.10 No.5
<P>An enzyme-catalyzed precipitation reaction was employed as a means to increase the change in the LSPR signal after intermolecular bindings between antigens and antibodies occurred on gold nanodot surfaces. The gold nanodot array with an diameter of 175 nm and a thickness of 20 nm was fabricated on a glass wafer using thermal nanoimprint lithography. The human interleukin (hIL) 5 antibody was immobilized on the gold nanodot, followed by binding of hIL 5 to the anti-hIL 5. Subsequently, a biotinylated anti-hIL 5 and a alkaline phosphatase conjugated with streptavidin were simultaneously introduced. A mixture of 5-bromo-4-chloro-3-indolyl phosphate p-toluidine (BCIP) and nitro blue tetrazolium (NBT) was then used for precipitation, which resulted from the biocatalytic reaction of the alkaline phosphatase on gold nanodot. The LSPR spectra were obtained after each binding process. Using this analysis, the enzyme-catalyzed precipitation reaction on gold nanodots was found to be effective in amplifying the change in the peak wavelength of LSPR after molecular bindings.</P>