Team:Stanford/TeamPage/Suzie Bartram

From 2009.igem.org

(Difference between revisions)
Line 1: Line 1:
{{Template:MainMenu}}
{{Template:MainMenu}}
 +
 +
[[Image:Suzietree.jpg |300px|right]]
-
Image:Suzietree.jpg
 
Suzie Bartram,Class of 2012, Undeclared. Her research experiences include an internship at the McLaughlin Research Institute in the lab of John R. Bermingham, Jr., Ph.D. where she performed in situ hybridization on mouse embryos to study genes related to Schwann cell differentiation and peripheral myelination.
Suzie Bartram,Class of 2012, Undeclared. Her research experiences include an internship at the McLaughlin Research Institute in the lab of John R. Bermingham, Jr., Ph.D. where she performed in situ hybridization on mouse embryos to study genes related to Schwann cell differentiation and peripheral myelination.
During the summer, Suzie helped design the SBOL-V visual graphics and language as well as worked in the wet-lab to build the Anti-Inflammation Device. Looking into the SoxR- SoxS promtoer pathway, she also worked on performing the necessary assays to test this inducible, superoxide sensor. These included testing GFP production with this system tagged to the lacl promoter.  As seen in the team results section, this system was characterized on both a high and low copy vector using paraquat as the inducer.
During the summer, Suzie helped design the SBOL-V visual graphics and language as well as worked in the wet-lab to build the Anti-Inflammation Device. Looking into the SoxR- SoxS promtoer pathway, she also worked on performing the necessary assays to test this inducible, superoxide sensor. These included testing GFP production with this system tagged to the lacl promoter.  As seen in the team results section, this system was characterized on both a high and low copy vector using paraquat as the inducer.

Revision as of 17:37, 19 October 2009

Suzietree.jpg


Suzie Bartram,Class of 2012, Undeclared. Her research experiences include an internship at the McLaughlin Research Institute in the lab of John R. Bermingham, Jr., Ph.D. where she performed in situ hybridization on mouse embryos to study genes related to Schwann cell differentiation and peripheral myelination.

During the summer, Suzie helped design the SBOL-V visual graphics and language as well as worked in the wet-lab to build the Anti-Inflammation Device. Looking into the SoxR- SoxS promtoer pathway, she also worked on performing the necessary assays to test this inducible, superoxide sensor. These included testing GFP production with this system tagged to the lacl promoter. As seen in the team results section, this system was characterized on both a high and low copy vector using paraquat as the inducer.