Revision as of 02:39, 27 September 2012

Protocols to determine the following experimental parameters

Auxin distribution in tadpole

To determine the site of auxin accumulation in tadpoles, intracardiac injection of auxin has to be done to ensure systemic distribution via the bloodstream. The next step is tadpole quenching followed by quantification and localization of auxin using commercially available fluorescent anti-auxin antibody.

Determination of auxin diffusing from tadpoles to the medium

To determine the coefficient of auxin diffusion from the skin to the medium (MMR), tadpole's skin is soaked in MMR+auxin medium for 20minutes. Next, the tissue is transferred to MMR auxin-free solution. Then , elevation of auxin level in MMR is measured. finally, auxin level curve is plotted as auxin quantityas a function of time ).

Determination of auxin diffusion from blood to muscle

To determine the coefficient of auxin diffusion from blood to muscle, intracardiac auxin injection is done .After , 5min tadpole recuperation in MMR, the tadpole is then sacrificed, and muscles are extracted to identify auxin concentrations in different samples.

Determination of auxin half life in tissues (muscle and skin )

To determine the tissue half-life time of auxin, tissues were soaked in great MMR medium volume to recuperate auxin by diffusion.
Auxin concentration estimation in tissue was done employing the massive volume difference between tissues and the bath.
Then place the tissus loaded in a small volume of MMR with the same auxin concentration.
The volume of solution has to be equal to the volume tissue.
Here we know how much auxin was present in the bath of small volume.

After 5 minutes, determine the auxin present in tissue and external environment.

Then the amount of auxin degraded by tissue volume in 5 minutes is calculated by deducting this value from the degradation of auxin in the MMR.

Repeat this experiment for least 10 tadpoles, but with prolonged incubation time in the bath of small volume.

Finally just assign the value of auxin degradation over time to determine the parameters

How to determine auxin Half-Life in Blood

Auxin half-life time in blood is determined by mixing a known amount of auxin with a defined volume of blood.Incubate for 5 minutes and determine auxin concentration.

finally, deduct the initial quantity of auxin prior incubation from that measured after 5min incubation. Thus, auxin degraded in 5min is measured.

Repeat the experiment ten time, increasing the incubation time to trace the curve of auxin degraded in blood as a function of time.

@@ Line 6: / Line 6: @@
-<center><h1>Protocols to determine the following experimentals parameters</h1></center>
+<center><h1>Protocols to determine the following experimental parameters</h1></center>
 <br/>
 <br/>
@@ Line 16: / Line 16: @@
 <br/>
-<p> To determine where the auxin gather in tadpole, you have to inject the auxin directly in it's heart. In this way it will be distributed with the bloodstream. The next stop is tadpole quenching and detection of the auxin distribution by fluorescent anti-auxin antibody, which are comercially available. </p>
+<p> To determine the site of auxin accumulation in tadpoles, intracardiac injection of auxin has to be done to ensure systemic distribution via the  bloodstream. The next step is tadpole quenching followed by quantification and localization of auxin using commercially available fluorescent anti-auxin antibody. </p>
@@ Line 22: / Line 22: @@
 <br/>
 <a name="2"></a>
-<center><h2>Determination of auxin diffusion from tadpole's skin to the medium</h2></center>
+<center><h2>Determination of auxin  diffusing from tadpoles to the medium</h2></center>
 <br/>
 <p>
-To determine the coefficient of auxin diffusion from the skin to the medium (MMR), tadpole's skin is soaked in MMR+auxin medium for 20minutes. After that tissue is transferred to MMR solution without auxine, and increase of auxin concentration in MMR is observed. It is thus possible to plot a curve (auxin quantity in fonction of time ). </p>
+To determine the coefficient of auxin diffusion from the skin to the medium (MMR), tadpole's skin is soaked in MMR+auxin medium for 20minutes. Next, the tissue is transferred to MMR auxin-free solution. Then , elevation of auxin level in MMR is measured. finally, auxin level curve is plotted as auxin quantityas a function of time ). </p>
@@ Line 36: / Line 36: @@
 <br/>
-<p> To determine the coefficient of auxin diffusion from blood to muscle, inject auxin directly into the tadpole's heart. 5min of recuperation time for tadpole in MMR is required.
+<p> To determine the coefficient of auxin diffusion from blood to muscle, intracardiac auxin injection is done .After , 5min tadpole recuperation  in MMR, the tadpole is then  sacrificed, and muscles are extracted to identify auxin concentrations in different samples.
-Afterwards euthanize the tadpole, collect muscle and identify the auxin concentration in samples.
 </p>
@@ Line 46: / Line 45: @@
-<br/>
-<br/>
 <br/>
-<img src="https://static.igem.org/mediawiki/2012/f/f4/123.jpg" alt="image not found" align="right" />
+<p>To determine the tissue half-life time of auxin, tissues were soaked in great MMR medium volume to  recuperate auxin by diffusion.<br/>
-<p><br/>To determine half-life time of auxin in tissues, tissue needs to be soaked in a great volume of MMR medium with auxin, during 20 minutes, to uptake the hormone.<br/>
+<i> Auxin concentration estimation  in  tissue was done employing the massive volume difference between tissues and the bath. </i><br/>
-<i>Estimation of auxin concentration in the tissue is possible, due to the strong difference between the volume of tissue and the bath. </i><br/><br/>
 Then place the tissus loaded in a small volume of MMR with the same auxin concentration.<br/>
@@ Line 58: / Line 54: @@
 Here we know how much auxin was present in the bath of small volume.<br/><br/>
+After 5 minutes,  determine the auxin present in tissue and external environment.<br/><br/>
-Apply the wait time ( the first is 5 minutes, it will increase after ), determine the auxin present in the tissue and the environment, to finaly subtract it from the initial quantity of auxin in tissue plus medium<br/><br/>
+Then the amount of auxin degraded by tissue volume in 5 minutes is calculated by deducting  this value from the degradation of auxin in the MMR.<br/><br/>
-Then simply subtract the degradation rate with tissue from MMR only, to know the amount of auxin degraded by tissue volume in 5 minutes<br/><br/>
-Repeat this experiment with at least 10 tadpoles, and by increasing the incubation time in the bath small volume of 5 minutes each time.<br/><br/>
+Repeat this experiment for  least 10 tadpoles, but with prolonged  incubation time in the bath of small volume.<br/><br/>
 Finally just assign the value of auxin degradation over time to determine the parameters</p>
@@ Line 72: / Line 67: @@
 <a name="6"></a>
-<center><h2>How to determine the Auxin Half Life in the Blood</h2></center>
+<center><h2>How to determine auxin Half-Life in Blood</h2></center>
 <br/>
@@ Line 78: / Line 73: @@
 <br/>
-<p>About the half-life time of auxin in blood, you just have to get a volume of blood, and mix that with an auxin known quantity. Wait 5 minutes and determine the concentration of auxin.<br/><br/>
+<p>Auxin half-life time in blood is determined by mixing a known amount of auxin with a defined volume of blood.Incubate for 5 minutes and determine auxin concentration.<br/><br/>
-Subtract the initial quantity of auxin added from the quantity mesurate in blood after 5 minutes to get the auxin degraded in the blood during the 5 minutes.<br/><br/>
+finally, deduct the initial quantity of auxin prior incubation from that measured after 5min incubation. Thus, auxin degraded in 5min is measured.<br/><br/>
-Restart the experiment ten time, increasing the wait time by 5 minutes to each time to trace the curve of the auxin degraded in blood fonction of time. </p>
+Repeat the experiment ten time, increasing the incubation time to trace the curve of auxin degraded in blood as a function of time. </p>
 <br/>

Team:Evry/Experimentals Parameters

From 2012.igem.org