Difference between revisions of "Part:BBa K1113701:Experience"

(Applications of BBa_K1113701)
(Applications of BBa_K1113701)
Line 3: Line 3:
 
We test the targeting sequence of the RuBisCO-GFP (the large and short subunit) in a co-transformation with the Carboxysome biobick (Bba_K1113100)+ RFP, all this in the TOP10 ''E. coli'' strain, then we observe this bacterias with the confocal microscope and look for colocalization of both GFP (targeting sequence) and RFP (carboxysomes).
 
We test the targeting sequence of the RuBisCO-GFP (the large and short subunit) in a co-transformation with the Carboxysome biobick (Bba_K1113100)+ RFP, all this in the TOP10 ''E. coli'' strain, then we observe this bacterias with the confocal microscope and look for colocalization of both GFP (targeting sequence) and RFP (carboxysomes).
  
[[File:Team_UC_Microscopioconfocal.jpg]]
+
[[File:Team_UC_Microscopioconfocal.jpg]]<br>
 
Figure 1. Confocal Microscopy. Brightfield, GFP filter, RFP filter and merge are shown
 
Figure 1. Confocal Microscopy. Brightfield, GFP filter, RFP filter and merge are shown
  

Revision as of 22:01, 5 October 2013

Applications of BBa_K1113701

We test the targeting sequence of the RuBisCO-GFP (the large and short subunit) in a co-transformation with the Carboxysome biobick (Bba_K1113100)+ RFP, all this in the TOP10 E. coli strain, then we observe this bacterias with the confocal microscope and look for colocalization of both GFP (targeting sequence) and RFP (carboxysomes).

Team UC Microscopioconfocal.jpg
Figure 1. Confocal Microscopy. Brightfield, GFP filter, RFP filter and merge are shown

User Reviews

UNIQbcb0df535a81b47b-partinfo-00000000-QINU UNIQbcb0df535a81b47b-partinfo-00000001-QINU