Team:MIT mmethods
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- | <a href="https://2010.igem.org/Team: | + | <dl id="nav"> |
- | <a href="https://2010.igem.org/Team: | + | <dt><b>Bacterial Protocol</b></dt> |
- | + | <dd> | |
- | <a href="https://2010.igem.org/Team: | + | <ul> |
- | + | <li><a href="https://2010.igem.org/Team:MIT_bconst">Biobrick Construction</a></li> | |
- | < | + | <li><a href="https://2010.igem.org/Team:MIT_bexp">Bacterial Experiments</a></li> |
+ | </ul> | ||
+ | </dd> | ||
+ | <dt><b>Mammalian Protocol</b></dt> | ||
+ | |||
+ | <dd> | ||
+ | <ul> | ||
+ | <li><a href="https://2010.igem.org/Team:MIT_mmethods">Microfluidics</a></li> | ||
+ | <li><a href="https://2010.igem.org/Team:MIT_mge">Genetic Engineering</a></li> | ||
+ | <li><a href="https://2010.igem.org/Team:MIT_gateway">Gateway Cloning</a></li> | ||
+ | |||
+ | </ul> | ||
+ | </dd> | ||
+ | <dt><b>Phage Protocol</b></dt> | ||
+ | |||
+ | <dd> | ||
+ | <ul> | ||
+ | <li><a href="https://2010.igem.org/Team:MIT_phageprot">Basic Protocol</a></li> | ||
+ | |||
+ | </ul> | ||
+ | </dd> | ||
+ | |||
+ | </dl> | ||
</div> | </div> | ||
- | <div id="unique" style="padding: | + | <div id="unique" style="padding:0px; font-size: 14px; border: 1px solid black; margin:0px; background-color:transparent;"> |
- | <table width= | + | <table width=650px style="background-color: white; margin-top:5px; padding: 10px;"> |
+ | <tr><td><div class="bodybaby">mammalian microfluidic protocol</div></td> | ||
<tr><td><br>The Mammalian team focused on creating a pressure-sensitive promoter and creating a standard protocol for mammalian genes.<br><br> | <tr><td><br>The Mammalian team focused on creating a pressure-sensitive promoter and creating a standard protocol for mammalian genes.<br><br> | ||
<div class="outline"> | <div class="outline"> | ||
- | 1 HTD Preparation Protocol<br> | + | <a href="#htd">1 HTD Preparation Protocol</a><br> |
- | 1.1 PDMS Mixture Preparation<br> | + | <a href="#mixprep">1.1 PDMS Mixture Preparation</a><br> |
- | 1.2 PDMS Pouring<br> | + | <a href="#pour">1.2 PDMS Pouring</a><br> |
- | 1.3 PDMS Baking<br> | + | <a href="#baking">1.3 PDMS Baking</a><br> |
- | 1.4 PDMS-Device | + | <a href="#punch">1.4 PDMS-Device Punching and Bonding</a><br> |
- | 1.5 PDMS Device Bonding<br> | + | <a href="#device">1.5 PDMS Device Bonding</a><br> |
- | 1.6 PDL coating<br> | + | <a href="#coat">1.6 PDL coating</a><br> |
- | 1.7 Collagen filling<br> | + | <a href="#cf">1.7 Collagen filling</a><br> |
- | 1.8 Cell Seeding<br> | + | <a href="#seed">1.8 Cell Seeding</a><br> |
- | 2 Protocol for Deflection Experiments<br> | + | <a href="#deflection">2 Protocol for Deflection Experiments</a><br> |
- | 2.1 Tubing Setup Details<br> | + | <a href="#tubing">2.1 Tubing Setup Details</a><br> |
- | 2.2 Adding Medium to Channels<br> | + | <a href="#medium">2.2 Adding Medium to Channels</a><br> |
- | 2.3 Connecting device to pressure valve<br> | + | <a href="#valve">2.3 Connecting device to pressure valve</a><br> |
- | 2.4 Microcontroller details<br> | + | <a href="#micro">2.4 Microcontroller details</a><br> |
- | </div></td><tr><td> | + | </div></td><tr><td><br> |
- | <div | + | <div class="bodybaby" id="htd">HTD Preparation Protocols (adapted from Yannis, Alisha) </div><br> |
- | <b class="bolded">PDMS Mixture Preparation</b><br> | + | <b class="bolded" id="mixprep">PDMS Mixture Preparation</b><br> |
Materials<br> | Materials<br> | ||
<ul id="procedure"> | <ul id="procedure"> | ||
Line 58: | Line 93: | ||
</ul> | </ul> | ||
<br> | <br> | ||
- | <b class="bolded">PDMS Pouring</b><br> | + | <b class="bolded" id="pour">PDMS Pouring</b><br> |
<ul id="procedure"> | <ul id="procedure"> | ||
<li>1. Blow the wafers with air, clear of all debris</li> | <li>1. Blow the wafers with air, clear of all debris</li> | ||
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<li>3. Let PDMS on wafer stand for 15-30mins, then blow air bubbles that have risen to the surface and put in oven. Do NOT de-gas wafer. This has lead to cracking and we only have the one. </li></ul> | <li>3. Let PDMS on wafer stand for 15-30mins, then blow air bubbles that have risen to the surface and put in oven. Do NOT de-gas wafer. This has lead to cracking and we only have the one. </li></ul> | ||
<br> | <br> | ||
- | <b class="bolded">PDMS Baking</b><br> | + | <b class="bolded" id="baking">PDMS Baking</b><br> |
<ul id="procedure"> | <ul id="procedure"> | ||
<li>1. Bake the poured wafers for 4-8 hours at 80C (recommended: 24hours to cross-link most of PDMS monomers)</li> | <li>1. Bake the poured wafers for 4-8 hours at 80C (recommended: 24hours to cross-link most of PDMS monomers)</li> | ||
<li>2. Detach by cutting with razor (carefully and slowly peel it off, starting from the edges and going in the circumferential direction, in order to avoid tearing posts apart)</li> </ul> | <li>2. Detach by cutting with razor (carefully and slowly peel it off, starting from the edges and going in the circumferential direction, in order to avoid tearing posts apart)</li> </ul> | ||
<br><br> | <br><br> | ||
- | <b class="bolded">PDMS-Device punching and Bonding</b><br> | + | <b class="bolded" id="punch">PDMS-Device punching and Bonding</b><br> |
<ul id="procedure"> | <ul id="procedure"> | ||
<li>1. Cut devices apart using a razor and the outline on the mask. Punch 4mm holes in the cell seeding and reservoir ports, a 2mm hole in the outlet port, and use the syringe to punch the gel filling ports.</li> | <li>1. Cut devices apart using a razor and the outline on the mask. Punch 4mm holes in the cell seeding and reservoir ports, a 2mm hole in the outlet port, and use the syringe to punch the gel filling ports.</li> | ||
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<li>5. Dry in oven overnight @ 80C. </li></ul> | <li>5. Dry in oven overnight @ 80C. </li></ul> | ||
<br> | <br> | ||
- | <b class="bolded">PDMS Device Bonding - Plasma Treatment</b><br> | + | <b class="bolded" id="device">PDMS Device Bonding - Plasma Treatment</b><br> |
<ul id="procedure"> | <ul id="procedure"> | ||
<li>1. Clean area and all tools with ethanol</li> | <li>1. Clean area and all tools with ethanol</li> | ||
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<li><b>Note: When making 2-layer devices, after bonding the two layers together, bake in the oven overnight. Then punch holes for the top layer and autoclave. If desired, can fill devices with 60 ul of media after bonding, and proceed directly to the cell seeding step </b></li></ul> | <li><b>Note: When making 2-layer devices, after bonding the two layers together, bake in the oven overnight. Then punch holes for the top layer and autoclave. If desired, can fill devices with 60 ul of media after bonding, and proceed directly to the cell seeding step </b></li></ul> | ||
<br> | <br> | ||
- | <b class="bolded">PDL Coating</b><br> | + | <b class="bolded" id="coat">PDL Coating</b><br> |
<ul id="procedure"> | <ul id="procedure"> | ||
<li>a. Fill the devices with PDL (~100-150µL/device)</li> | <li>a. Fill the devices with PDL (~100-150µL/device)</li> | ||
<li>b. Wash twice with water after 24 hours. Make sure that all regions are washed, in order to avoid heterogeneous surface coating. If you get bubbles, try to remove them by using the pipette applying suction. </li></ul> | <li>b. Wash twice with water after 24 hours. Make sure that all regions are washed, in order to avoid heterogeneous surface coating. If you get bubbles, try to remove them by using the pipette applying suction. </li></ul> | ||
- | + | <br> | |
- | <b class="bolded">Collagen Filling</b><br> | + | <b class="bolded" id="cf">Collagen Filling</b><br> |
Material<br> | Material<br> | ||
<ul id="procedure"> | <ul id="procedure"> | ||
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<li>4. Leave all devices for 1 hour in the incubator (in the humidity box) for the gel to polymerize</li> | <li>4. Leave all devices for 1 hour in the incubator (in the humidity box) for the gel to polymerize</li> | ||
<li>5. [IMPORTANT. This protocol establishes a stable pocket of air between the two medium channels at the outlet port.] Fill channels with medium from reservoir ports (~50-100µL). Gently fill medium until the channels have been filled to the cell seeding filling ports. Do NOT fill all the way to the outlet port. Instead, be sure to leave air at the channel intersection and in the outlet port. Place a droplet of medium over the outlet port to trap the air inside. Place devices in incubator. They will be ready for cell seeding in 24hours. </li></ul><br> | <li>5. [IMPORTANT. This protocol establishes a stable pocket of air between the two medium channels at the outlet port.] Fill channels with medium from reservoir ports (~50-100µL). Gently fill medium until the channels have been filled to the cell seeding filling ports. Do NOT fill all the way to the outlet port. Instead, be sure to leave air at the channel intersection and in the outlet port. Place a droplet of medium over the outlet port to trap the air inside. Place devices in incubator. They will be ready for cell seeding in 24hours. </li></ul><br> | ||
- | <b class="bolded">Cell Seeding</b><br> | + | <b class="bolded" id="seed">Cell Seeding</b><br> |
<ul id="procedure"> | <ul id="procedure"> | ||
<li>1. Trypsinize cells, spin down (@ 1.2 rpm, 5 min), and resuspend in medium to a final concentration of 2 million cells/ml</li> | <li>1. Trypsinize cells, spin down (@ 1.2 rpm, 5 min), and resuspend in medium to a final concentration of 2 million cells/ml</li> | ||
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- | <div | + | <div class="bodybaby" id="deflection">Protocol for Deflection Experiments</div><br> |
- | <b class="bolded">Tubing Setup Details</b><br> | + | <b class="bolded" id="tubing">Tubing Setup Details</b><br> |
<ul id="procedure"> | <ul id="procedure"> | ||
<li>1. Connect the outlet port to a ‘dead end’ (a cap at the end of the tubing that prevents liquid flow); use a tapered connection.</li> | <li>1. Connect the outlet port to a ‘dead end’ (a cap at the end of the tubing that prevents liquid flow); use a tapered connection.</li> | ||
<li>2. Connect the inlet port to a syringe. <b>Note: The tubing should be sterilized.</b></li></ul> <br> | <li>2. Connect the inlet port to a syringe. <b>Note: The tubing should be sterilized.</b></li></ul> <br> | ||
- | <b class="bolded">Adding Media to Channels</b><br> | + | <b class="bolded" id="medium">Adding Media to Channels</b><br> |
<ul id="procedure"> | <ul id="procedure"> | ||
<li><b>Note: before applying pressure, we're going to add medium to all control channels; don’t want to apply the pressure to air in the control channels.</b></li> | <li><b>Note: before applying pressure, we're going to add medium to all control channels; don’t want to apply the pressure to air in the control channels.</b></li> | ||
<li>1. Fill a small syringe with medium and connect to the inlet port.</li> | <li>1. Fill a small syringe with medium and connect to the inlet port.</li> | ||
<li>2. Open the ‘dead end’ and push the syringe to fill control channel with medium.</li></ul><br> | <li>2. Open the ‘dead end’ and push the syringe to fill control channel with medium.</li></ul><br> | ||
- | <b class="bolded">Connecting Device to Pressure Valve</b><br> | + | <b class="bolded" id="valve">Connecting Device to Pressure Valve</b><br> |
<ul id="procedure"> | <ul id="procedure"> | ||
<li>1. Find the microcontroller; connect tubing from pressure valve to appropriate inlet of microcontroller – (a small hole on the left or right side, pick a side depending on how you want to control the pressure).</li> | <li>1. Find the microcontroller; connect tubing from pressure valve to appropriate inlet of microcontroller – (a small hole on the left or right side, pick a side depending on how you want to control the pressure).</li> | ||
Line 135: | Line 170: | ||
<li>4. Use the buttons on the microcontroller to set the pressure program.</li> | <li>4. Use the buttons on the microcontroller to set the pressure program.</li> | ||
<li>5. Always start testing with low pressure. After 25 PSI, connectors can no longer contain the pressure. </li></ul><br> | <li>5. Always start testing with low pressure. After 25 PSI, connectors can no longer contain the pressure. </li></ul><br> | ||
- | <div | + | <div class="bodybaby" id="micro">Microcontroller details</div><br> |
<ul id="procedure"> | <ul id="procedure"> | ||
- | Inlets: | + | <b>Inlets:</b> |
<li><b>Right Inlet:</b> pressure is always applied</li> | <li><b>Right Inlet:</b> pressure is always applied</li> | ||
<li><b>Left Inlet:</b> pressure is applied according to microcontroller program. </li></ul> | <li><b>Left Inlet:</b> pressure is applied according to microcontroller program. </li></ul> |
Latest revision as of 16:54, 27 October 2010
mammalian microfluidic protocol |
The Mammalian team focused on creating a pressure-sensitive promoter and creating a standard protocol for mammalian genes.
1 HTD Preparation Protocol 1.1 PDMS Mixture Preparation 1.2 PDMS Pouring 1.3 PDMS Baking 1.4 PDMS-Device Punching and Bonding 1.5 PDMS Device Bonding 1.6 PDL coating 1.7 Collagen filling 1.8 Cell Seeding 2 Protocol for Deflection Experiments 2.1 Tubing Setup Details 2.2 Adding Medium to Channels 2.3 Connecting device to pressure valve 2.4 Microcontroller details |
HTD Preparation Protocols (adapted from Yannis, Alisha) PDMS Mixture Preparation Materials
Procedure
PDMS Pouring
PDMS Baking
PDMS-Device punching and Bonding
PDMS Device Bonding - Plasma Treatment
PDL Coating
Collagen Filling Material
Procedure
Cell Seeding
Protocol for Deflection Experiments Tubing Setup Details
Adding Media to Channels
Connecting Device to Pressure Valve
Microcontroller details
|