Improve your plant imaging skills and tackle common challenges with this expert…
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Download nowIn vivo imaging is the non-invasive visualization of living organisms for research and/or diagnostic purposes. This method can be divided in two key areas: anatomical/morphological imaging and molecular imaging. In molecular imaging cellular function or molecular processes are visualized using biomarkers. While in anatomical imaging no marker is used, and visualization is based on the intrinsic properties of the tissues and organs being observed. For example, the attenuation of X-rays in the case of computed tomography. Molecular imaging very often uses biomarkers labeled with bioluminescence or fluorescence.
By using in vivo molecular imaging multiple molecular events can be monitored simultaneously. For example, to visualize drug effects, to optimize drug and gene therapy, to monitor tumor growth or to study disease progression in both living animals and plants. By providing insights into transcription–translation feedback loops which are entrained by environmental signals such as light or temperature; even circadian clocks in plants can be monitored. Compared to other methods of measuring molecular processes in vivo imaging has several important advantages:
These advantages make in vivo imaging a very useful technology in many research and diagnostic fields.
Improve your plant imaging skills and tackle common challenges with this expert…
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Download nowImproved experimental setup for analysis of circadian rhythms using the…
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Download nowBioluminescence Imaging using NightOWL LB 981 NC 100. Cells expressing…
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Download nowGetting to Know The Circadian Clock and Plant Growth With NightSHADE
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Download nowIn this application note, imaging of delayed fluorescence and of ultra-weak…
EN | PDF | 458.7 KB
Download nowIn this application note, the ability of the NightSHADE evo In Vivo Plant…
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Download nowDetection of Fluorescence in Transgenic Arabidopsis Lines Expressing…
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Download nowFluorescence in Vivo Imaging of labeled nanoparticles in tumour-bearing mice…
PDF | 201.4 KB
Download nowTo determine the optimal luciferase activity detection time, time course…
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Download nowMeasurement of Biophoton Emission in Plants – An Alternative Monitoring System…
PDF | 1.4 MB
Download nowImprove your plant imaging skills and tackle common challenges with this expert…
EN | PDF | 2.7 MB
Download nowImproved experimental setup for analysis of circadian rhythms using the…
PDF | 410.3 KB
Download nowBioluminescence Imaging using NightOWL LB 981 NC 100. Cells expressing…
PDF | 307.0 KB
Download nowGetting to Know The Circadian Clock and Plant Growth With NightSHADE
PDF | 170.2 KB
Download nowIn this application note, imaging of delayed fluorescence and of ultra-weak…
EN | PDF | 458.7 KB
Download nowIn this application note, the ability of the NightSHADE evo In Vivo Plant…
EN | PDF | 567.9 KB
Download nowDetection of Fluorescence in Transgenic Arabidopsis Lines Expressing…
PDF | 840.6 KB
Download nowFluorescence in Vivo Imaging of labeled nanoparticles in tumour-bearing mice…
PDF | 201.4 KB
Download nowTo determine the optimal luciferase activity detection time, time course…
PDF | 315.7 KB
Download nowMeasurement of Biophoton Emission in Plants – An Alternative Monitoring System…
PDF | 1.4 MB
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