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Latest revision as of 03:46, 27 October 2012

Immobilization

Immobilization on silica beads

Suspend silicium dioxide beads in recrystallization buffer (0.5 mM Tris-HCl, pH 9, 10 mM CaCl2) and mix it with the 1 mg/mL lacasse solution
- Ratio of beads to protein should be 1 to 1000
- 0.1 mg/mL final protein concentration
- Contact with recrystallization buffer will start assembly of SbpA
Incubate on vertical rotator at room temperature for 4 h
After incubation: centrifuge down the beads (1 min, > 15,000 g), wash them twice with ddH2O and store them afterwards in ddH2O at 4 °C in the dark

Immobilization with CPC silica beads

CPC-(controlled pore carrier) Silica beads, aminopropyl derivate (2-aminopropyl-triethosysilane), pore size: 500 A, 30-45 mesh

Immobilization of 1mL protein solution on 0,12g CPC-silica beads

Immerse beads in 1 mL 2.5% glutaraldehyde under light vacuum for 2 hours.
Wash beads (2 times with 1 ml) with Britton-Robinson-buffer (pH 5).
Immerse in stock laccase solution (i.e., 1 mg of laccase in 1 mL of buffer prepared the same day) for at least 24 hours at 4° C.
Wash the beads with buffer again (2 times with 1 mL).
Add 1 mL 0.5M sodium chloride.
Wash with buffer again
Immerse in 1 mL of 2.5 mg/mL glycine for at least 18 hours at 4° C.
Wash first with buffer, then winth 0.5 M sodium chloride then buffer again, and finally stored in buffer at 4° C until use.

All reagents used in the immobilization process were made in Britton-Robinson-buffer.

Activity measurements

Activity measurement of beads

Activity measurements of laccases bound on beads were performed using AcroPrep^TM 96-well Filter Plates.

158 µL deionized H₂ and 40 µL 100 mM sodium acetate were added to the samples containing dry beads.
The whole sample volume was transfered into the AcroPrep^TM 96-well Filter Plates.
The reaction was induced adding 0.1 mM ABTS at room temperature.
The reaction was stopped by centrifugation at 13000 g for 30s.
Oxidized ABTS was detected photometrically at 420 nm.

Alternative measurement of beads

Activity measurements of laccases bound on beads were alternatively performed while using the photometer Thermo biomate3 UV-Vis Spectrophotometer and classic plastic cuvettes.

Beads were measured under substrate saturation in a total volume of 500 µl.
The reaction was induced adding the specific ABTS concentration at room temperature.
Mixing was realized through vortexing between measurements.
Substrate reduction was measured every 20 seconds for at least one hour.
Oxidized ABTS was detected photometrically at 420 nm.

Activity measurement of supernatant

Activity measurements of the supernatants see [here]

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About our Wiki

Fifteen students from different fields of study from the Bielefeld University aspired to complete a project called TOXIC COMPOUNDS IN NATURAL WATER - A CASE FOR LACCASE. In his Wiki we document our achievements and our approach.

Contact Us

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info(at)igem-bielefeld.de

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 {{Team:Bielefeld/Head}}
+<html>
+        <div id=page-title>
+            <span id=page-title-text>
+                Immobilization
+            </span>
+        </div>
+   <div id="grey_bg">
+</html>
+= Immobilization =
+== Immobilization on silica beads ==
+*Suspend silicium dioxide beads in recrystallization buffer (0.5 mM Tris-HCl, pH 9, 10 mM CaCl2) and mix it with the 1 mg/mL lacasse solution
+**Ratio of beads to protein should be 1 to 1000
+**0.1 mg/mL final protein concentration
+**Contact with [https://2012.igem.org/Team:Bielefeld-Germany/Protocols/Materials recrystallization buffer] will start assembly of SbpA
+*Incubate on vertical rotator at room temperature for 4 h
+*After incubation: centrifuge down the beads (1 min, > 15,000 g), wash them twice with ddH2O and store them afterwards in ddH2O at 4 °C in the dark
 == Immobilization with CPC silica beads==
-Laccase was immobilized on the CPC-silica beads
+*CPC-(controlled pore carrier) Silica beads, aminopropyl derivate (2-aminopropyl-triethosysilane), pore size: 500 A, 30-45 mesh
-,12 g of beads were immersed in 1 mL 2.5% glutaraldehyde and put under light vacuum for 2 hours in order to degas the beads and allow as much bead surface area as possible to be coated with aldehyde groups.
+Immobilization of 1mL protein solution on 0,12g CPC-silica beads
+*Immerse beads in 1 mL 2.5% glutaraldehyde under light vacuum for 2 hours.
+*Wash beads (2 times with 1 ml) with Britton-Robinson-buffer (pH 5).
+*Immerse in stock laccase solution (i.e., 1 mg of laccase in 1 mL of buffer prepared the same day) for at least 24 hours at 4° C.
+*Wash the beads with buffer again (2 times with 1 mL).
+*Add 1 mL 0.5M sodium chloride.
+*Wash with buffer again
+*Immerse in 1 mL of 2.5 mg/mL glycine for at least 18 hours at 4° C.
+*Wash first with buffer, then winth 0.5 M sodium chloride then buffer again, and finally stored in buffer at 4° C until use.
+All reagents used in the immobilization process were made in [https://2012.igem.org/Team:Bielefeld-Germany/Protocols/Materials Britton-Robinson-buffer].
+= Activity measurements =
-The beads were washed (2 times with 1 ml) with Britton-Robinson-buffer (pH 5) and then immersed in a stock laccase solution (i.e., 1 mg of laccase in 1 mL of buffer prepared the same day) for at least 36 hours at 4° C.
+== Activity measurement of beads==
-After washing the beads with buffer again (2 times with 1 mL), the beads were rinsed with 1 mL 0.5M sodium chloride in order to prevent sorption of the enzyme onto the beads, since only the measurement of reactions catalyzed by covalently bonded enzyme was desired.
-The beads were again washed with buffer and then immersed in 1 mL of 2.5mg/mL glycine for at least 18 hours at 4° C.
-They were than washed, first with buffer, then 0.5 M sodium chloride then buffer, and finally stored in buffer at 4° C until use.
-All reagents used in the immobilization process were made in Britton-Robinson-buffer.
-== Britton-Robinson-buffer ==
+Activity measurements of laccases bound on beads were performed using [http://www.pall.com/main/Laboratory/Product.page?id=20000 AcroPrep<sup>TM</sup> 96-well Filter Plates].
+* 158 µL deionized H<sub>2</sub> and 40 µL 100 mM sodium acetate were added to the samples containing dry beads.
+* The whole sample volume was transfered into the [http://www.pall.com/main/Laboratory/Product.page?id=20000 AcroPrep<sup>TM</sup> 96-well Filter Plates].
+* The reaction was induced adding 0.1 mM ABTS at room temperature.
+* The reaction was stopped by centrifugation at 13000 g for 30s.
+* Oxidized ABTS was detected photometrically at 420 nm.
-*0.1 M	acetic	acid
+===Alternative measurement of beads===
-*0.1 M	boric acid
-*0.1 M phosphoric acid
-adjusted to the desired pH by addition of 1 N sodium hydroxide
+Activity measurements of laccases bound on beads were alternatively performed while using the photometer Thermo biomate3 UV-Vis Spectrophotometer and classic plastic cuvettes.
+* Beads were measured under substrate saturation in a total volume of 500 µl.
+* The reaction was induced adding the specific ABTS concentration at room temperature.
+* Mixing was realized through vortexing between measurements.
+* Substrate reduction was measured every 20 seconds for at least one hour.
+* Oxidized ABTS was detected photometrically at 420 nm.
+== Activity measurement of supernatant==
+Activity measurements of the supernatants see [[https://2012.igem.org/Team:Bielefeld-Germany/Protocols/Analytics#Generell_setup_of_enzyme_activity_measurements here]]
-<center>
-[[File:Bielefeld2012_Under_construction.png|200px]]
-</center>
+<html>
+   </div>
+</html>
 {{Team:Bielefeld/Sponsoren}}

Team:Bielefeld-Germany/Protocols/Immobilization