Team:Yale/Interlab
From 2014.igem.org
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- | <h1 style="margin-top:22px; font-size: | + | <h1 style="margin-top:22px; font-size:44px;">Interlab</h1> |
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<li>What is the model and manufacturer? How is it configured for your measurements? (e.g., light filters, illumination, amplification) <br></strong> | <li>What is the model and manufacturer? How is it configured for your measurements? (e.g., light filters, illumination, amplification) <br></strong> | ||
- | A Synergy H1 Plate Reader (BioTek, Winooski, VT) was used for all optical measurements. The instrument uses a Xenon flash lamp as a light source. Fluorescence measurements were taken at single wavelengths ( λex = 485 ± 4 nm and λem = 528 ± 4 nm). A bottom fluorescence measurement was taken, which is configured with double grating monochromators. The reading speed for fluorescence and absorbance measurements for a 96-well plate is 11 seconds. Two photomultiplier tubes are used for detection: one for the monochromator system and another for the filter system. | + | A Synergy H1 Plate Reader (BioTek, Winooski, VT) was used for all optical measurements. The instrument uses a Xenon flash lamp as a light source. Fluorescence measurements were taken at single wavelengths ( λex = 485 ± 4 nm and λem = 528 ± 4 nm). A bottom fluorescence measurement was taken, which is configured with double grating monochromators. The reading speed for fluorescence and absorbance measurements for a 96-well plate is 11 seconds. Two photomultiplier tubes are used for detection: one for the monochromator system and another for the filter system. <br><br> </ol> |
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The DH5α strain used was not a robust strain, and its growing time greatly impeded construct creation and measurement. <br> </ol> | The DH5α strain used was not a robust strain, and its growing time greatly impeded construct creation and measurement. <br> </ol> | ||
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Optical Density was measured in absorbance units (AU). <br> <strong> | Optical Density was measured in absorbance units (AU). <br> <strong> | ||
- | <li>What is the equivalent unit expressed as a combination of the seven SI base units? (http://en.wikipedia.org/wiki/SI_base_unit) <br></strong> | + | <li>What is the equivalent unit expressed as a combination of the seven SI base units? <br>(http://en.wikipedia.org/wiki/SI_base_unit) <br></strong> |
Absorbance in AU is a ratio, and thus has no SI units. <br> | Absorbance in AU is a ratio, and thus has no SI units. <br> | ||
RFU is an arbitrary fluorescence unit and cannot be compared. <br></ol> <strong> | RFU is an arbitrary fluorescence unit and cannot be compared. <br></ol> <strong> | ||
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- | < | + | <strong>Graph 1: Fluorescence Normalized by Optical Density (AFU/OD)</strong> <br> |
+ | <img src="https://static.igem.org/mediawiki/2014/thumb/e/ea/Data_interlab_yale.png/600px-Data_interlab_yale.png" height=450 width=auto> | ||
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Latest revision as of 03:12, 18 October 2014
Interlab |
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Section I: Provenance and Release
Section III: Measured Quantities For each type of quantity measured (e.g., fluorescence, optical density), report on the following:
Optical Density was measured in absorbance units (AU). (http://en.wikipedia.org/wiki/SI_base_unit) RFU is an arbitrary fluorescence unit and cannot be compared.
Section IV: Measurements
Table 1: Optical Density Measurements (AU)
Table 2: Fluorescence Measurements (RFU)
Table 3: Fluorescence Normalized by Optical Density (AFU/OD)
Graph 1: Fluorescence Normalized by Optical Density (AFU/OD) |