Other Analytical Instrument

Contact point for usage through "Jumps" program

Instrumental Analysis Section (ias*oist.jp)(replace* by @)


  • Maker: GE Healthcare
  • Model: Biacore T200
  • Features: Kinetics analysis applications (protein – protein, protein – ligand)


  • Maker: Malvern
  • Model: MicroCal PEAQ-ITC
  • Features: Low volume isothermal titration calorimeter for the label-free in solution study of biomolecular interactions


  • Maker: Malvern
  • Model: MicroCal VP-Capillary
  • Features: Microcalorimetry for protein-ligand binding constant calculation


  • Maker:  RIGAKU
  • Model: Thermo plus EVO2
  • Specification:

    -Temp. Range: -150 ~ 750 ℃
    -Heating Rate: 10 ℃/min
    -Gas Flow: N2
    -Auto Cooling: LN2


  • Maker: RIGAKU
  • Model:  LN2A
  • Specification: 

    -Temp. Range: RT ~ 1500 ℃
    -Heating: 10 ℃/min
    -Gas Flow: N2

Exter Analytical CE-440

  • Maker: EAI
  • Model: CE-440 Elemental Analyser
  • Features: C, H, N analysis

Fluorescence Spectrophotometer

  • Maker: HITACHI
  • Model: F-7000
  • Features: 3D Fluorescent spectra measurement, measurement of fluorescence quantum yield of solid samples, FRET (Fluorescence Resonance Energy Transfer) and BRET (Bioluminescence Resonance Energy Transfer)

Microplate Reader

  • Maker: Molecular Devices
  • Model: SpectraMax iD3
  • Features: DNA and RNA quantitation and purity, protein assays, enzyme assays, kinetic assays, immunoassays, cell proliferation and cytotoxicity assays

UV-Vis Spectrophotometer

  • Maker: Thermo Scientific
  • Model: NanoDrop 2000C
  • Features: Nucleic Acid, DNA, RNA and Protein Quantification


  • Maker: JASCO
  • Model: J-820
  • Features: provides information about structures of optical active molecules, electronic state, and configuration

Ion Chromatography

  • Maker: Thermo Fisher
  • Model: Dionex ICS-5000+
  • Features: Monosaccharide analysis, inorganic ion analysis, organic acid analysis

Microscale Thermophoresis System

  • Maker: Nanotemper
  • Model: Monolith
  • Features: Quantify molecular interactions between a target and ligand by detecting changes in fluorescence intensity while a temperature gradient is applied over time