|
|
Line 133: |
Line 133: |
| <div class="container d-flex justify-content-center" style="padding:20px"> | | <div class="container d-flex justify-content-center" style="padding:20px"> |
| <figure style=" width: 100%;"> | | <figure style=" width: 100%;"> |
− | <img src="https://static.igem.org/mediawiki/2018/c/c1/T--Sorbonne_U_Paris--Interlab_figure1.jpg"alt="Particle absorbance calibration curve" style="width: 70%"> | + | <img src="https://static.igem.org/mediawiki/2018/c/c1/T--Sorbonne_U_Paris--Interlab_figure1.jpg"alt="Particle standard curve" style="width: 70%"> |
| <figcaption style="padding: 10px;"><b>Figure 2. Particle absorbance calibration curve. </b>The particle count per 100 µL is plotted against the A600 of the “monodisperse silica microspheres”. This plot allowed the conversion of measured absorbance at 600 nm of the cells in suspension to the number of particles (or cells) in 100 µL. </figcaption> | | <figcaption style="padding: 10px;"><b>Figure 2. Particle absorbance calibration curve. </b>The particle count per 100 µL is plotted against the A600 of the “monodisperse silica microspheres”. This plot allowed the conversion of measured absorbance at 600 nm of the cells in suspension to the number of particles (or cells) in 100 µL. </figcaption> |
| </figure> </div> | | </figure> </div> |
Line 141: |
Line 141: |
| <div class="container d-flex justify-content-center" style="padding:20px"> | | <div class="container d-flex justify-content-center" style="padding:20px"> |
| <figure style=" width: 100%;"> | | <figure style=" width: 100%;"> |
− | <img src="https://static.igem.org/mediawiki/2018/c/c1/T--Sorbonne_U_Paris--Interlab_figure1.jpg"alt="Particle absorbance calibration curve" style="width: 70%"> | + | <img src="https://static.igem.org/mediawiki/2018/c/c1/T--Sorbonne_U_Paris--Interlab_figure1.jpg"alt="Particle standard curve" style="width: 70%"> |
− | <figcaption style="padding: 10px;"><b>Figure 3. Particle absorbance calibration curve. </b>The particle count per 100 µL is plotted against the A600 of the “monodisperse silica microspheres”. This plot allowed the conversion of measured absorbance at 600 nm of the cells in suspension to the number of particles (or cells) in 100 µL. | + | <figcaption style="padding: 10px;"><b>Figure 3. Particle standard curve. </b>The particle count per 100 µL is plotted against the A600 of the “monodisperse silica microspheres”. This plot allowed the conversion of measured absorbance at 600 nm of the cells in suspension to the number of particles (or cells) in 100 µL. |
| | | |
| <p>Then, E. coli K-12 DH5-α cells were transformed with the different test devices and spread on plates. </figcaption> | | <p>Then, E. coli K-12 DH5-α cells were transformed with the different test devices and spread on plates. </figcaption> |
Line 161: |
Line 161: |
| <div class="container d-flex justify-content-center" style="padding:20px"> | | <div class="container d-flex justify-content-center" style="padding:20px"> |
| <figure style=" width: 100%;"> | | <figure style=" width: 100%;"> |
− | <img src="https://static.igem.org/mediawiki/2018/6/66/T--Sorbonne_U_Paris--Interlab_figure2.jpg" alt="Particle fluorescence standard curve." style="width: 70%"> | + | <img src="https://static.igem.org/mediawiki/2018/6/66/T--Sorbonne_U_Paris--Interlab_figure2.jpg" alt="Particle standard curve." style="width: 70%"> |
− | <figcaption style="padding: 10px;"><b>Figure 5. Particle fluorescence standard curve. </b>The fluorescein concentration (µM) is plotted against the fluorescence of fluorescein. This plot allowed the conversion of the fluorescence measurements of the cell suspension to a GFP concentration.</figcaption> | + | <figcaption style="padding: 10px;"><b>Figure 5. Fluorescein standard curve. </b>The fluorescein concentration (µM) is plotted against the fluorescence of fluorescein. This plot allowed the conversion of the fluorescence measurements of the cell suspension to a GFP concentration.</figcaption> |
| </figure> </div> | | </figure> </div> |
| | | |