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| | The camera used for the measurement was a Canon 50D. The camera was set to automatically acquire pictures at an interval of five seconds. Before the solution was flushed over the chip, the exposure time was set to obtain apprx. 80% saturation (Fig. 1 A & B). | | The camera used for the measurement was a Canon 50D. The camera was set to automatically acquire pictures at an interval of five seconds. Before the solution was flushed over the chip, the exposure time was set to obtain apprx. 80% saturation (Fig. 1 A & B). |
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| − | The antibody solution was pipetted into the flow chamber without the use of a microfluidic pump. Instead, a syringe was loaded with 500 µl [5 µg/ml] anti-rabbit antibody solution (diluted in PBS) and slowly released into the binding chamber of the device by gently dispensing it from the syringe. | + | The antibody solution was pipetted into the flow chamber without the use of a microfluidic pump. Instead, a syringe was loaded with 500 µl [5 µg/ml] anti-rabbit antibody solution (diluted in 1xPBS) and slowly released into the binding chamber of the device by gently dispensing it from the syringe. |
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| | As can be seen in figure 1 C, the quotient picture clearly shows binding of anti-rabbit antibodies to the rabbit protein spots. The BSA control spots show none or negligible unspecific binding. | | As can be seen in figure 1 C, the quotient picture clearly shows binding of anti-rabbit antibodies to the rabbit protein spots. The BSA control spots show none or negligible unspecific binding. |
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| | <a class="accordion-section-title" href="#accordion-2">Spot analysis by hand: A step by step guidance</a> | | <a class="accordion-section-title" href="#accordion-2">Spot analysis by hand: A step by step guidance</a> |
| | <div id="accordion-2" class="accordion-section-content" style="display:none; padding:15px;"> | | <div id="accordion-2" class="accordion-section-content" style="display:none; padding:15px;"> |
| − | <p> This step by step guidance shows you how to dertermine endpoint intensities of the binding experiment as shown above. Have a look at our <a href="https://2015.igem.org/Team:Freiburg/Project/iRIf">iRIF</a> page to getall the background informations about the detection method.</p> | + | <p> This step by step guidance shows you how to determine endpoint intensities of the binding experiment as shown Figure 1C. Have a look at our <a href="https://2015.igem.org/Team:Freiburg/Project/iRIf">iRIF</a> page to get all the background informations about the detection method.</p> |
| | <ol> | | <ol> |
| | <li> During your iRIF experiment you take two pictures. One before the binding event and one after the binding event. Open both pictures in <a href="http://imagej.nih.gov/ij/">ImageJ</a>. </li> | | <li> During your iRIF experiment you take two pictures. One before the binding event and one after the binding event. Open both pictures in <a href="http://imagej.nih.gov/ij/">ImageJ</a>. </li> |
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| | <p> | | <p> |
| − | In this section we demonstrate how to build your own iRIf device from scratch, using affordable, low-tech material. The design is focused on creating a device that is both low-priced and portable, demonstrating the potential for the DiaCHIP to be used even in areas where high-tech laboratories are inaccessible. | + | In this section we demonstrate how to build your own iRIf device from scratch, using affordable, low-tech material. The design is focused on creating a device that is both low-priced and portable. Therefore the DiaCHIP can be used even in areas where high-tech laboratories are inaccessible. |
| | </p> | | </p> |
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| | <a href="https://static.igem.org/mediawiki/2015/2/27/Freiburg_Device_Flowcell_chamber_syringe.jpg" class="lightbox_trigger" title="Flow cell attachment"><img alt="Freiburg iRIf device flow cell attachment" src="https://static.igem.org/mediawiki/2015/0/08/Freiburg_Device_Flowcell_chamber_syringe_preview.jpg" width="400"/></a> | | <a href="https://static.igem.org/mediawiki/2015/2/27/Freiburg_Device_Flowcell_chamber_syringe.jpg" class="lightbox_trigger" title="Flow cell attachment"><img alt="Freiburg iRIf device flow cell attachment" src="https://static.igem.org/mediawiki/2015/0/08/Freiburg_Device_Flowcell_chamber_syringe_preview.jpg" width="400"/></a> |
| | <div class="thumbcaption"> | | <div class="thumbcaption"> |
| − | <strong>Figure 7</strong> - left: a flow chamber consisting of an iRIf slide attached to a PDMS flow cell - center: a syringe attached to a pipette tip, used to inject antibody solutions into the flow chamber - right: the part of our device which connects the flow chamber, the syringe and the iRIf device. | + | <strong>Figure 7</strong> - left: a flow chamber consisting of an iRIf slide attached to a PDMS (red) flow cell - center: a syringe attached to a pipette tip, used to inject antibody solutions into the flow chamber - right: the part of our device which connects the flow chamber, the syringe and the iRIf device. |
| | </div> | | </div> |
| | </div> | | </div> |
