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<p><strong>Fig. 2</strong> Particle standard curve generated by measuring the absorbance of serial dilutions of silica microspheres (known amount of particles per volume) displayed in a log scale to demonstrate a linear relationship between particle count per volume and absorbance.</p> | <p><strong>Fig. 2</strong> Particle standard curve generated by measuring the absorbance of serial dilutions of silica microspheres (known amount of particles per volume) displayed in a log scale to demonstrate a linear relationship between particle count per volume and absorbance.</p> | ||
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<p>In the last part of the calibration we prepared a dilution series of fluorescein in four replicates and measured the fluorescence. During this calibration part we generated a standard curve of fluorescence for fluorescein concentration.</p> | <p>In the last part of the calibration we prepared a dilution series of fluorescein in four replicates and measured the fluorescence. During this calibration part we generated a standard curve of fluorescence for fluorescein concentration.</p> | ||
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<p><strong>Fig. 3</strong> Standard curve of fluorescein generated by measuring the fluorescence of serial dilution stock (µM). Fluorescence is plotted against the fluorescein concentration.</p> | <p><strong>Fig. 3</strong> Standard curve of fluorescein generated by measuring the fluorescence of serial dilution stock (µM). Fluorescence is plotted against the fluorescein concentration.</p> | ||
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<p><strong>Fig. 4</strong> A standard curve of fluorescein generated by measuring the fluorescence of serial dilution stock (uM). Fluorescence is plotted against the fluorescein concentration on a logarithmic scale. | <p><strong>Fig. 4</strong> A standard curve of fluorescein generated by measuring the fluorescence of serial dilution stock (uM). Fluorescence is plotted against the fluorescein concentration on a logarithmic scale. | ||
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<p><strong>Fig. 5</strong> Graph comparing the raw Abs600 prior incubation and at hour 6 for each colony using each control/device</p> | <p><strong>Fig. 5</strong> Graph comparing the raw Abs600 prior incubation and at hour 6 for each colony using each control/device</p> | ||
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<p><strong>Fig. 6 </strong>Graph comparing the raw fluorescence prior to incubation and at hour 6 for each colony using each control/device</p> | <p><strong>Fig. 6 </strong>Graph comparing the raw fluorescence prior to incubation and at hour 6 for each colony using each control/device</p> | ||
Revision as of 12:43, 17 October 2018
InterLab
Studying Fluorescence
The goal of this year’s InterLab Study was to identify and minimize the sources of systematic variability in fluorescence measurements by normalizing to absolute cell count or colony-forming units (CFUs) instead of optical density (OD).
Participating in the fifth iGEM InterLab Study was a great opportunity to start this year’s competition as well as acquire some valuable knowledge which we implemented into practice during the project.