Team:Stanford-Brown/AboutUs/Team

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Revision as of 22:49, 3 October 2012

About Us

We are the combined iGEM team of Brown University and Stanford University, working together across three thousand miles and four time zones to develop synthetic biology applications for astrobiology. We've developed 6 parts that confer resistance to basicity and desiccation to explore where life is going as we move towards the stars. We've created cell-cycle promoters to create remote biosensors: tools for astrobiologists to study the growth of samples without disturbing them. We've engineered a standardized flagella part that can express metalbinding sites to harvest metals in situ.

Our team is composed of thirteen undergraduates and recent graduates working under the guidance of post-doctoral students and professors. We are always looking to share our passion for the exciting new field of synthetic biology, so please make sure to contact us with any questions.

Who Are We?

Students:

Debha Amatya Stanford '14 Bioengineering	Bryce Bajar Stanford '14 Bioengineering	Gabriel Ben-Dor Stanford '14 Neuroscience	Julia Borden Brown '14 Cell Biology
Benjamin Geilich Brown '12 Neuroscience	Jason Hu Brown '15 Comp Bio/English	Chris Jackson Stanford '14 Bioengineering	Vishesh Jain Brown '14 Comp Bio
Bella Okiddy Brown '15 Bioengineering	Rashmi Sharma Stanford '14 Bioengineering	Aaditya Shidham Stanford '13 Computer Science	Kendrick Wang Stanford '14 Bioengineering
Michelle Yu Stanford '14 Biomedical Comp

Faculty Advisors:

Lynn Rothschild

Gary Wessel

Joseph Shih

Mentors:

André Burnier	Kosuke Fujishima	Diana Gentry	Ivan Lima
Jesica Navarrete	Jesse Palmer	Chris Venter

Retrieved from "http://2012.igem.org/Team:Stanford-Brown/AboutUs/Team"

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-We are the combined iGEM team of Brown University and Stanford University, working together across three thousand miles and four time zones to develop synthetic biology applications for astrobiology.
+We are the combined iGEM team of Brown University and Stanford University, working together across three thousand miles and four time zones to develop synthetic biology applications for astrobiology. We've developed 6 parts that confer resistance to basicity and desiccation to explore where life is going as we move towards the stars. We've created cell-cycle promoters to create remote biosensors: tools for astrobiologists to study the growth of samples without disturbing them. We've engineered a standardized flagella part that can express metalbinding sites to harvest metals ''in situ''.
-iGEM, or the International Genetically Engineered Machines Competition, is an annual competition at MIT that aims to advance the field of synthetic biology -- the science of creating machines from biological parts.
 Our team is composed of thirteen undergraduates and recent graduates working under the guidance of post-doctoral students and professors. We are always looking to share our passion for the exciting new field of synthetic biology, so please make sure to contact us with any questions.