トゥールーズ ITAVセンターにおけるNanoWizard AFM システムのアプリケー ショ ンについてご報告いたします。
JPK Instruments, a world-leading manufacturer of nanoanalytic instrumentation for research in life sciences and soft matter, reports on the use of the JPK NanoWizard® AFM system at ITAV, the Institut des Technologies Avancées en science du Vivant, in Toulouse in the South of France.
Dr Childérick Severac manages the Bionanotechnologies Platform at ITAV (Institut des Technologies Avancées en science du Vivant) on the site of the new Oncopole campus dedicated to cancer research. His research activities may be divided into two parts: his own research and the research activity he does for others in the form of providing a collaborative imaging service. DrSeverac’s research focuses on the development of soft nanolithography techniques and to develop the concept of a new type of label-free biochip for the prognosis of breast cancer.
In these studies, AFM is used as a characterization tool to accurately help evaluate the size and shape of the nanoscale structures fabricated in the group to check the robustness of the manufacturing technique. In the collaborative research efforts, AFM is being used to probe the mechanical properties of various cells, e.g. cancer cells, to study their invasiveness. It is also used to study cardiomyocytes to understand the role of Ephrin B1 protein in maintaining their mechanical coherence. Corneocytes are being studied with the AFM to understand the impact of pharmaceutical products on the structure of these cells in connection with the treatment of a topic dermatitis (a skin disease). These projects are with co-workers from other research groups where they utilise the AFM skills of Dr Severac and his team.
Commenting on his use of the NanoWizard®, Dr Severac said that prior to using the JPK NanoWizard® II, he used TEMs and SEMs as well as some older generation AFM systems. If there is one thing he specifically likes about the JPK machine, it is what he calls the "GOOGLE MAP ZOOM" feature. This enables the user to easily zoom in and out of the 100 µm x 100 µm scan area; then select a region, zoom in and scan at a higher resolution; then zoom out and into another position with so much ease, it gives the user a sensation of total control and, in particular, helps control the work flow when investigating large cells.