Difference between revisions of "Team:Pasteur Paris/Experiments"

Line 174: Line 174:
 
             <p style="text-align:center;"> Text written on this website is not intended for use as protocols, but to give an idea of the main steps and complexity of each experiment. Please follow the links to the full protocols at the bottom of each sliding panel. </p>
 
             <p style="text-align:center;"> Text written on this website is not intended for use as protocols, but to give an idea of the main steps and complexity of each experiment. Please follow the links to the full protocols at the bottom of each sliding panel. </p>
 
         </div>
 
         </div>
 +
 +
 +
 +
 +
 +
 +
 +
 +
 +
 +
 +
 +
 +
 +
 +
 +
       
 +
        <div class="block separator-mark">
 +
        </div>
 +
       
 +
        <div class="block full" id="molbio_0" style="display:flex;flex-flow: row wrap;justify-content:center;margin:auto;">
 +
 +
            <h2 style="order:1;">Molecular Biology: general protocols</h2>
 +
 +
            <p style="text-indent:0px;order:2;margin:2em;">Here we present the basic molecular biology methods we used throughout the project to amplify our plasmids, linearized them and insert our sequences, retrieve them rom bacteria and express proteins. </p>                         
 +
 +
 +
            <div class="vignette" id="vign_1000">
 +
                <div class="vignette_for" id="for_1000">
 +
                </div>
 +
 +
                <div class="vignette_back" id="back_1000">
 +
                </div>
 +
 +
                <div class="vignette_text">
 +
                    <p style="margin:auto; text-align:center;font-weight:bold;" >Bacteria transformation</p>
 +
                </div>
 +
            </div>
 +
 +
            <div class="vignette" id="vign_1001">
 +
                <div class="vignette_for" id="for_1001">
 +
                </div>
 +
               
 +
                <div class="vignette_back" id="back_1001">
 +
                </div>
 +
               
 +
                <div class="vignette_text">
 +
                    <p style="margin:auto; text-align:center;font-weight:bold;">Liquid culture</p>
 +
                </div>
 +
            </div>
 +
 +
            <div class="vignette" id="vign_1002">
 +
                <div class="vignette_for" id="for_1002">
 +
                </div>
 +
               
 +
                <div class="vignette_back" id="back_1002">
 +
                </div>
 +
               
 +
                <div class="vignette_text">
 +
                    <p style="margin:auto; text-align:center;font-weight:bold;">Bacterial stocks</p>
 +
                </div>
 +
            </div>
 +
 +
            <div class="vignette" id="vign_1003">
 +
                <div class="vignette_for" id="for_1003">
 +
                </div>
 +
               
 +
                <div class="vignette_back" id="back_1003">
 +
                </div>
 +
               
 +
                <div class="vignette_text">
 +
                    <p style="margin:auto; text-align:center;font-weight:bold;">DNA extraction from bacterial culture</p>
 +
                </div>
 +
            </div>
 +
 +
            <div class="vignette" id="vign_1004">
 +
                <div class="vignette_for" id="for_1004">
 +
                </div>
 +
               
 +
                <div class="vignette_back" id="back_0004">
 +
                </div>
 +
               
 +
                <div class="vignette_text">
 +
                    <p style="margin:auto; text-align:center;font-weight:bold;">Enzymatic digestion</p>
 +
                </div>
 +
            </div>
 +
 +
 +
            <div class="vignette" id="vign_1005">
 +
                <div class="vignette_for" id="for_1005">
 +
                </div>
 +
               
 +
                <div class="vignette_back" id="back_1005">
 +
                </div>
 +
               
 +
                <div class="vignette_text">
 +
                    <p style="margin:auto; text-align:center;font-weight:bold;">Electrophoresis on agar gel</p>
 +
                </div>
 +
            </div>
 +
 +
 +
            <div class="vignette" id="vign_1006">
 +
                <div class="vignette_for" id="for_1006">
 +
                </div>
 +
               
 +
                <div class="vignette_back" id="back_1006">
 +
                </div>
 +
               
 +
                <div class="vignette_text">
 +
                    <p style="margin:auto; text-align:center;font-weight:bold;">DNA Gel extraction</p>
 +
                </div>
 +
            </div>
 +
 +
            <div class="vignette" id="vign_1007">
 +
                <div class="vignette_for" id="for_1007">
 +
                </div>
 +
               
 +
                <div class="vignette_back" id="back_1007">
 +
                </div>
 +
               
 +
                <div class="vignette_text">
 +
                    <p style="margin:auto; text-align:center;font-weight:bold;">Ligation of plasmid with DNA insert</p>
 +
                </div>
 +
            </div>
 +
 +
 +
 +
 +
 +
            <div class="panel" id="pan_1000" style="text-align:left;">
 +
                <div class="close_button">
 +
                </div>
 +
                <br>
 +
                <h3>Aim</h3>
 +
                <p>Insert a plasmid of interest into competent bacterial cells, in order to replicate them.</p>
 +
                <br>
 +
            </div>
 +
 +
            <div class="panel" id="pan_1001" style="text-align:left;">
 +
                <div class="close_button">
 +
                </div>
 +
                <br>
 +
                <h3>Aim</h3>
 +
                <p>Grow a colony that have successfully been transformed with one or several plasmids in order to replicate plasmid or to express a protein.</p>
 +
                <br>
 +
            </div>
 +
 +
            <div class="panel" id="pan_1002" style="text-align:left;">
 +
                <div class="close_button">
 +
                </div>
 +
                <br>
 +
                <h3>Aim</h3>
 +
                <p>Stock bacterial culture at -80 °C.</p>
 +
                <br>
 +
            </div>
 +
 +
            <div class="panel" id="pan_1003" style="text-align:left;">
 +
                <div class="close_button">
 +
                </div>
 +
                <br>
 +
                <h3>Aim</h3>
 +
                <p>Retrieve amplified plasmids from a liquid culture of transformed bacteria. According to the liquid culture volume, we used the QIAfilter Plasmid Purification kit (for 25 mL culture) or the QIAprep Spin Miniprep kit (for 5 mL culture) from Qiagen.</p>
 +
                <br>
 +
            </div>
 +
 +
            <div class="panel" id="pan_1004" style="text-align:left;">
 +
                <div class="close_button">
 +
                </div>
 +
                <br>
 +
                <h3>Aim</h3>
 +
                <p>Perform restriction enzyme digestion in order to recover linear backbones of the plasmids, extract our inserts from commercial plasmid, or check the success of a ligation. </p>
 +
                <br>
 +
            </div>
 +
 +
            <div class="panel" id="pan_1005" style="text-align:left;">
 +
                <div class="close_button">
 +
                </div>
 +
                <br>
 +
                <h3>Aim</h3>
 +
                <p>Separate DNA fragments according to their molecular weight after an enzymatic digestion, in order to purify inserts or to analyse a plasmid.</p>
 +
                <br>
 +
            </div>
 +
 +
            <div class="panel" id="pan_1006" style="text-align:left;">
 +
                <div class="close_button">
 +
                </div>
 +
                <br>
 +
                <h3>Aim</h3>
 +
                <p>: Extract DNA from an agar gel after an electrophoresis. We used the QIAquick Gel Extraction Kit provided by Qiagen.</p>
 +
                <br>
 +
            </div>
 +
 +
            <div class="panel" id="pan_1007" style="text-align:left;">
 +
                <div class="close_button">
 +
                </div>
 +
                <br>
 +
                <h3>Aim</h3>
 +
                <p>Insert a DNA fragment with appropriate overlaps into a linearized plasmid. We used the In-Fusion HD Cloning Plus provided by Ozyme. </p>
 +
                <br>
 +
            </div>
 +
                                 
 +
 +
            <script>
 +
                var cont = document.getElementById("molbio_0"); 
 +
                var vign_back_lis = cont.getElementsByClassName("vignette_back");
 +
                var i;
 +
 +
                for (i = 0; i < vign_back_lis.length; i++) {
 +
                    vign_back_lis[i].addEventListener("click", function() {
 +
                        var cont = document.getElementById("molbio_0"); 
 +
                        var vign_back_lis = cont.getElementsByClassName("vignette_back");
 +
                        var cont_index = "10";
 +
                        /*get clicked element index*/
 +
                        var index = String(this.id).substring(7,9);
 +
 +
                        /*locate elements to move*/
 +
                        var panel = document.getElementById("pan_"+cont_index+index);
 +
                        var vignFor = this.previousElementSibling;
 +
                        var vignText = this.nextElementSibling;
 +
                        /*move it*/
 +
                        if (panel.style.maxHeight){
 +
 +
                            /*close it*/
 +
                            panel.style.maxHeight = null;
 +
                            vignFor.style.opacity = 1;
 +
                            vignText.style.opacity = 0.8;
 +
                            vignText.style.top = "4em";
 +
                        }
 +
                        else {
 +
                           
 +
                            /*find active element*/
 +
                            var j;
 +
                            var index_act = -1 ;
 +
                            var el_foc;
 +
                            for (j = 0; j < vign_back_lis.length; j++) {
 +
                                    if (j<10) {
 +
                                        el_foc=document.getElementById("pan_" + cont_index + "0" + j);
 +
                                        if (el_foc.style.maxHeight != 0) {
 +
                                            index_act="0"+j;
 +
                                            break;
 +
                                        }
 +
                                    } else {
 +
                                        el_foc=document.getElementById("pan_" + cont_index + j);
 +
                                        if (el_foc.style.maxHeight != 0) {
 +
                                            index_act=j;
 +
                                            break;
 +
                                    }
 +
                                }
 +
                            }
 +
                            if (index_act != -1) {
 +
                                /*close active element*/
 +
                                var panel_act = document.getElementById("pan_"+cont_index+index_act);
 +
                                var back_act = document.getElementById("back_"+cont_index+index_act);
 +
                                var for_act=back_act.previousElementSibling;
 +
                                var text_act=back_act.nextElementSibling;
 +
                                panel_act.style.maxHeight = null;
 +
                                for_act.style.opacity = 1;
 +
                                text_act.style.opacity = 0.8;
 +
                                text_act.style.top = "4em";
 +
                            }
 +
 +
                            /*open clicked element*/
 +
                            panel.style.maxHeight = panel.scrollHeight + "px";
 +
                            vignFor.style.opacity = 0;
 +
                            vignText.style.opacity = 1;
 +
                            vignText.style.top = "15em";
 +
                        }
 +
                    });
 +
                }
 +
 +
            </script>
 +
 +
        </div>
 +
 +
 +
 +
 +
 +
 +
 +
 +
 +
  
  
Line 812: Line 1,095:
 
                             case '03':
 
                             case '03':
 
                                 act_vign.style.order="9";
 
                                 act_vign.style.order="9";
                                 act_pan.style.order="10";                            
+
                                 act_pan.style.order="12"; 
 +
                            case '04':
 +
                                act_vign.style.order="10";
 +
                                act_pan.style.order="13";
 +
                            case '05':
 +
                                act_vign.style.order="11";
 +
                                act_pan.style.order="14";
 +
                            case '06':
 +
                                act_vign.style.order="15";
 +
                                act_pan.style.order="18";   
 +
                            case '07':
 +
                                act_vign.style.order="16";
 +
                                act_pan.style.order="19";                         
 
                         }
 
                         }
 
                     }
 
                     }
Line 836: Line 1,131:
 
                             case '03':
 
                             case '03':
 
                                 act_vign.style.order="9";
 
                                 act_vign.style.order="9";
                                 act_pan.style.order="10";                            
+
                                 act_pan.style.order="10";  
 +
                            case '04':
 +
                                act_vign.style.order="11";
 +
                                act_pan.style.order="12";
 +
                            case '05':
 +
                                act_vign.style.order="12";
 +
                                act_pan.style.order="13";
 +
                            case '06':
 +
                                act_vign.style.order="14";
 +
                                act_pan.style.order="15";   
 +
                            case '07':
 +
                                act_vign.style.order="16";
 +
                                act_pan.style.order="17";                             
 
                         }
 
                         }
 
                     }     
 
                     }     
Line 860: Line 1,167:
 
                             case '03':
 
                             case '03':
 
                                 act_vign.style.order="8";
 
                                 act_vign.style.order="8";
                                 act_pan.style.order="10";                            
+
                                 act_pan.style.order="10";  
 +
                            case '04':
 +
                                act_vign.style.order="11";
 +
                                act_pan.style.order="13";
 +
                            case '05':
 +
                                act_vign.style.order="12";
 +
                                act_pan.style.order="14";
 +
                            case '06':
 +
                                act_vign.style.order="15";
 +
                                act_pan.style.order="17";   
 +
                            case '07':
 +
                                act_vign.style.order="16";
 +
                                act_pan.style.order="18";                             
 
                         }
 
                         }
 
                     }
 
                     }

Revision as of 16:41, 24 August 2018

""

PROTOCOLS

Text written on this website is not intended for use as protocols, but to give an idea of the main steps and complexity of each experiment. Please follow the links to the full protocols at the bottom of each sliding panel.

Molecular Biology: general protocols

Here we present the basic molecular biology methods we used throughout the project to amplify our plasmids, linearized them and insert our sequences, retrieve them rom bacteria and express proteins.

Bacteria transformation

Liquid culture

Bacterial stocks

DNA extraction from bacterial culture

Enzymatic digestion

Electrophoresis on agar gel

DNA Gel extraction

Ligation of plasmid with DNA insert


Aim

Insert a plasmid of interest into competent bacterial cells, in order to replicate them.



Aim

Grow a colony that have successfully been transformed with one or several plasmids in order to replicate plasmid or to express a protein.



Aim

Stock bacterial culture at -80 °C.



Aim

Retrieve amplified plasmids from a liquid culture of transformed bacteria. According to the liquid culture volume, we used the QIAfilter Plasmid Purification kit (for 25 mL culture) or the QIAprep Spin Miniprep kit (for 5 mL culture) from Qiagen.



Aim

Perform restriction enzyme digestion in order to recover linear backbones of the plasmids, extract our inserts from commercial plasmid, or check the success of a ligation.



Aim

Separate DNA fragments according to their molecular weight after an enzymatic digestion, in order to purify inserts or to analyse a plasmid.



Aim

: Extract DNA from an agar gel after an electrophoresis. We used the QIAquick Gel Extraction Kit provided by Qiagen.



Aim

Insert a DNA fragment with appropriate overlaps into a linearized plasmid. We used the In-Fusion HD Cloning Plus provided by Ozyme.


Microfluidics: general protocols

PDMS (Polydimethylsiloxane) is a widely used polymer in microfluidics, for its biocompatibility and transparence, among other qualities. Here we show how to prepare PDMS for microfluidic chips, as well as how to demold them, bond them to other surfaces and treat them for neuron growth. Also, we explain how our molds and chips were fabricated.

PDMS Chip Fabrication

PDMS Chip Demolding

PDMS Chip Bonding

PDMS Chip Treatment for Nerve Growth


Materials

  • Sylgard 184 Elastomer Kit
  • Vacuum pump unit
  • Stove

Protocol

According to manufacturer's instruction.

  1. Mix monomer and curing agent (10:1 proportion) for 30 seconds.
  2. Use a vacuum pump unit and a vacuum bell jar to extract air bubbles until the mixture is clear.
  3. Pour mixture onto mold.
  4. Put mixture+mold in stove at 70 degrees Celsius for 3 hours.



Materials

  • Razor blade
  • Biopsy puncher 4mm

Protocol


  1. Cut the borders of the chip with the razor blade.
  2. Extract the chip from its mold.
  3. Drill input and output holes with the biopsy puncher.



Materials

  • Plasma cleaner
  • Distilled water
  • Isopropanol
  • Office duct tape
  • Fume hood

Protocol


  1. Take chip and the surface it needs to be bonded to into the fume hood.
  2. Clean chip with duct tape and isopropanol.
  3. Put the chip and the surface into the plasma cleaner.
  4. Expose chip and surface 30 seconds to plasma.
  5. Take the chip and the surface back in the fume hood.
  6. Press the microfluidic chip against the surface.



Materials

  • Poly-D-Lysine solution 1.0 mg/mL
  • Laminin

Protocol


  1. Pour poly-D-lysine with concentration 10 &mu g/mL into the chip.
  2. Incubate over night.
  3. Pour laminine with concentration 4 &mu g/mL.
  4. Incubate for a few hours.


Microfluidics: well chip

The well chip was designed and assembled by our team. It was used to test the biocompatibility of our membranes, as well as the culture of bacteria in the presence of current. Here we show how the molds were made, how the chip itself was assembled, how well's conductivity was measured and how biofilm culture was performed on it.

PDMS Well Chip Mold Fabrication

PDMS Well Chip Fabrication

PDMS Well Chip Conductivity Measurement




Molds were made of aluminium according to the following plans (Figure 1). Part 1 Mold's center cylinder part is detachable from the bottom to make the demolding ot PDMS easier.


PDMS Well Chip Mold Plans



Materials

  • Molds
  • Syringe without needle
  • Platinum 24mm x 2 mm strip
  • Circular 13mm diameter membrane

Protocol


  1. Prepare 15g of PDMS monomer using our protocol, section 1. Replace step 5 by : Fill the syringe with PDMS. Fill part 1 mold until it's full and part 2 mold until the PDMS layer is more or less 1 cm thick.
  2. Demold the chip following our protocol, section 2. Ignore step 2.
  3. Put membrane and platinum strip on PDMS part 1.
  4. Refer to our protocol, section 3 to bond PDMS part 2 to the PDMS part prepared in the previous step.
  5. Apply a small layer of PDMS with the syringe on the contact zone of the PDMS part 2 and the platinum strip.
  6. Put the chip in the stove for 3 hours.

Get full protocol here



Materials

  • Oscilloscope
  • Function generator
  • Solderless breadboard assembly
  • Electric wires with banana connectors
  • Coaxial cable
  • Male BCN to 2 female banana connectors converter
  • BNC Splitter
  • 1 kOhm resistor

Protocol


  1. Reproduce the following electric circuit.

  2. Electric circuit 1

  3. Set function generator on sine, no offset, 4.5 V amplitude.
  4. Measure Y2 peak-to-peak amplitude and Y2's phase relative to Y1.

Get full protocol here


Microfluidics: microchannel chip

We used the microchannel chip to test the effect of NGF on the neuron's growth.

PDMS Microchannel Chip Mold Fabrication




We were allowed to use the molds made by Institut Curie. We were not involved in the process of their fabrication. Here is a short video we made about how these molds were created.