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Application and development of technologies using magnetic nanoparticles for analysis of individual cells

첫 페이지 보기
  • 발행기관
    한국생물공학회 바로가기
  • 간행물
    한국생물공학회 학술대회 바로가기
  • 통권
    2012 추계학술대회 (2012.09)바로가기
  • 페이지
    pp.24-24
  • 저자
    Mina OKOCHI
  • 언어
    영어(ENG)
  • URL
    https://www.earticle.net/Article/A187474

※ 원문제공기관과의 협약기간이 종료되어 열람이 제한될 수 있습니다.

원문정보

초록

영어
Microengineering techniques such as lab-on-a-chip technologies are emerging as the next revolution in tools for high throughput cell-based analysis. Cell is the basic unit of life of all organisms and exerts its function by pericellular microenvironment, such as extracellular matrix and other cells adjacent to individual cells. Therefore, to understand, control and predict cellular responses, it is important to build the biomimeticevaluation system. With the development of micro-and nano-technology devices, variety of tools is becoming available for the analysis of cells at the cellular and molecular levels. Since single-cell analysis enables to capture the minimal change within a living organism, it is emerging as less-invasive approach for clinical diagnosis and cell identification. In this study, we developed technologies using magnetic nanoparticles for cellular analysis of individual cells, such as magnetic force-based cell patterning and droplet-based gene expression analysis. Using these methods, the behavior of cancer cells was observed a in the three-dimensional cell culture array along with gene expression analysis.Magnetic force-based cell patterning was conducted using a pin-holder device fabricated by processing electromagnetic soft iron in which each pillar is aligned at center-to-center distance of 250 μm for magnetic convergence. Using this pin-holder device with Nd-B magnet underneath, magnetically labeled cells were allocated on the cell culture dish at single and multiple cells levels by varying the cell seeding density. The magnetic cell patterning technique has been applied for evaluation of invasive capacity with tumor cells in a three dimensional cell culture array, and cell susceptibility assay was performed. Also, a droplet manipulation system using superparamagnetic nanoparticles and magnetic force was developed for gene expression analysis at single cell levels. The magnetic force-based-droplet handling system can be used as a powerful tool for various biochemical applications by moving and coalescing sample droplets using magnetic beads immersed in mineral oil. We optimized the conditions for single cell lysis and RT-PCR analysis and applied this system for detection of Wilms tumor gene mRNA, that is useful as an indicator of minimal residual disease in leukemia. The developed system is quite simple and allows for the handling of droplets and preceding reactions using a magnet without external pumps and valves. These systems are greatly advantageous for cell analysis and related diagnostic applications.

저자

  • Mina OKOCHI [ Department of Biotechnology, Nagoya University, Furo-cho, Chikusa, Nagoya 464-8603, Japan. ]

참고문헌

자료제공 : 네이버학술정보

간행물 정보

발행기관

  • 발행기관명
    한국생물공학회 [The Korean Society for Biotechnology and Bioengineering]
  • 설립연도
    1984
  • 분야
    공학>생물공학
  • 소개
    이 법인은 생물 공학의 발전과 보급에 이바지하고, 회원 상호 간의 연구 협력과 친목을 도모함을 목적으로 한다 1. 생물공학 분야의 발전을 위한 연구 협력 2. 생물공학의 실용화를 촉진시키기 위한 산학 협동 3. 학술연구 발표회, 강연회, 연수회 등 학술활동의 개최 4. 국,영문 학술지,소식지,학술회의 Proceedings 및 학술도서의 발간 5. 생물공학 발전을 위한 정책 건의 6. 기타 국제 교류 등 본 학회의 목적 달성을 위한 제반 활동

간행물

  • 간행물명
    한국생물공학회 학술대회
  • 간기
    반년간
  • 수록기간
    1985~2013
  • 십진분류
    KDC 476 DDC 576

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