JuLI Smart fluorescent cell analyzerDIGITAL-BIO TECHNOLOGYJust Look at ItIncreasing numbers of researchers are using live-cell imaging to study cellular
functions. The JuLi, a smart fluorescent-cell analyzer, was developed to enable
a variety of biological experiments for live-cell imaging. microscopes imagerie cellulaires en temps réel fluorescence analyseur de
cellules films vidéos transfection images july viewer microscope gfp cell
imaging imager |
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Compact design for convenienceFlourescent live-cell images from various cell culture dishes are directly
captured in a tissue-culture hood.
This compact design prevents contami-nation, providing better experiment results. The revolutionary technologies make JuLI™ SMART- Stand-alone [All-in-one system]
- 50,000 hrs lifetime of Blue LED
- Dark-room free
- Plug & Play technology
- One-touch image capturing
- LCD touch screen
- Cell counting and analysis of fluorescent/bright
Capture live cell images and moviesSequential time-lapse fluorescence and/or bright images are stored, and can be
converted to movie files. Growing live-cell movies can be generated even in
cell-culture incubator. Counting & Analyzing by image processing software Smart fluorescent-cell analyzer provides new tools to expand cellular research
through novel software. The results are more insightful data with proliferation
assays, live-cell counting, etc. Communication through wireless data transfer Utilizing Wi-Fi technology, all data, including images and movies, can be
transferred automatically from JuLi to PC. Applications - Live cell imaging
- Cell migration assay
- Cell-based assay optimization
- Cell culture quality control
- Proliferation assay
- Quantitative measurement of GFP transfected cell
- Determination of cell viability with trypan blue
68 hour time-lapse imaging of the chondrogenic hMSC (human mesenchymal stem
cell) morphology by micromass culture Back to Top
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| AC 100-240V, 50-60Hz | | AMD AU1250 | | 10x and 20x compatible | | Excitaion / Emission / Dichroic filter | | White / Blue LED (488nm) | | White / Green LED (532nm) or White / Red LED (630nm) | | CMOS 1.3M pixels (1280 X 1024) | | 7’ TFT-LCD (WVGA, 800 X 480) | | < 5kg | | 220 X 375 X 220 mm | | 4GB |
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Comparisons with conventional microscopeLive-cell imagingThe U20S cells were transfected by NEON transfection system (from Invitrogen)
using 0.5ug of the GFP-MLPH plasmid & GFP-Rab plasmid. Images captured 24 hours
after transfection. The NIH3T3,COS7,C2C12 cells were transfected by NEON transfection system (from
Invitrogen) using 0.5ug of the EGFP-N1 plasmid. Images captured 24hours after
transfection. Time-Lapse imaging in bright field Examples of 12- hour time-lapse imaging of the HeLa cells changing shapes. All
images were captured at 5-minute intervals. Time-Lapse imaging in fluorescent field Examples of 48-hour EGFP expression in HeLa cells. All images were captured
5-minute intervals. Back to Top
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