Team:ESBS-Strasbourg/Plasmid urification

From 2008.igem.org

(Difference between revisions)
(New page: 1)Remarks: <br> We can estimate the concentration of our final product, by using a spectrophotometer. The wavelength to enter is 260 nm, knowing that 1 unit correspond of a 50µg/mL conce...)
 
Line 1: Line 1:
-
1)Remarks: <br>
+
a) Remarks <br>
We can estimate the concentration of our final product, by using a spectrophotometer. The wavelength to enter is 260 nm, knowing that 1 unit correspond of a 50µg/mL concentration. Be aware that there is a Nanodrop at the Pharma faculty, and maria proposed us to use it if we need. The advantages are that we can get our plasmid concentration by wasting only 1µL, and we also get the purety of it.
We can estimate the concentration of our final product, by using a spectrophotometer. The wavelength to enter is 260 nm, knowing that 1 unit correspond of a 50µg/mL concentration. Be aware that there is a Nanodrop at the Pharma faculty, and maria proposed us to use it if we need. The advantages are that we can get our plasmid concentration by wasting only 1µL, and we also get the purety of it.
-
2)Protocol: <br>
+
b) Protocol <br>
Follow the Nucleospin kit instructions
Follow the Nucleospin kit instructions
Line 10: Line 10:
-
[[Team:ESBS-Strasbourg/Protocols|Protocols]]
+
[[Team:ESBS-Strasbourg/Protocols|''Protocols'']]

Latest revision as of 14:25, 14 July 2008

a) Remarks

We can estimate the concentration of our final product, by using a spectrophotometer. The wavelength to enter is 260 nm, knowing that 1 unit correspond of a 50µg/mL concentration. Be aware that there is a Nanodrop at the Pharma faculty, and maria proposed us to use it if we need. The advantages are that we can get our plasmid concentration by wasting only 1µL, and we also get the purety of it.


b) Protocol

Follow the Nucleospin kit instructions


Protocols