User:Adam B. Fisher: Difference between revisions
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Adam B. Fisher<br> | |||
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[[Image:Afishinlab.jpg|thumb|225px|left|Candidly counting some colonies]] | |||
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'''''In nature hybrid species are usually sterile, but in science the reverse is often true.''''' <br /> | |||
'''''Hybrid subjects are often astonishingly fertile, whereas if a scientific discipline remains too pure it usually wilts.''''' <br /> | |||
- Francis Crick <br /> | |||
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'''''What I cannot create, I cannot understand.''''' <br /> | |||
- Richard Feynman<br /> | |||
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'''''I am very comfortable with the idea that we can override biology with free will.''''' <br /> | |||
- Richard Dawkins<br /> | |||
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As a researcher, I am broadly interested in integrating approaches and technologies found in synthetic and systems biology, metabolic engineering, chemical biology and quantitative biology to facilitate microbial engineering. At Virginia Tech, I had my first exposure to these emergent fields while working as an undergraduate to build out and characterize a bi-stable genetic toggle switch. Subsequently, I joined the lab of [[Fong|Dr. Stephen Fong]] at Virginia Commonwealth University endeavoring toward a PhD in Integrative Life Sciences. Currently, I am involved in projects revolving around ''ex vivo'' approaches for cloning and synthetic biology, a synthetic biomolecular delivery system and a cost analysis for the interpretation of genome-scale models. My overall research interests include: | |||
<br /> | |||
<br /> | |||
*Cell Free Systems | |||
*Synthetic gene assembly | |||
* | *Protein engineering | ||
* | *Synthetic metagenomics | ||
</ | *Genome-scale metabolic models | ||
*Statistical models of biological sequences | |||
== Education== | *Engineered microbial consortia | ||
<br /> | |||
==Education & Training== | |||
<br | '''Virginia Commonwealth University ·''' ''Richmond, VA'' '''·''' 2011 — 2014 | ||
*Ph.D. '''·''' Integrative Life Sciences | |||
**Advised by Stephen S. Fong | |||
== Publications == | '''Virginia Tech ·''' ''Blacksburg, VA'' '''·''' 2007 — 2011 | ||
< | *B.S. '''·''' Biological Sciences | ||
**Concentration in Microbiology & Immunology | |||
<br> | *Minor '''·''' Business | ||
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==Publications== | |||
*'''Fisher, A. B.''', Canfield, Z. B., Hayward, L. C. & Fong, S. ex vivo DNA assembly. Fronteirs in Bioengineering and Biotechnology (2013). doi:10.3389/fbioe.2013.00012 <br/> | |||
*Vanee N, '''Fisher AB''', Fong SS. “Evolutionary Engineering for Industrial Microbiology”. Subcellular Biochemistry: Reprogramming Microbial Metabolic Pathways (New York: Springer Verlag, 2012), Vol. 64. | |||
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/ | ==Presentations== | ||
< | *Poster - DNA Assembly for free: using cellular lysates to decrease cloning costs, Synthetic Biology 6.0. Imperial College of London, UK 9-12 July 2013 | ||
*Talk/Poster - Cyanobacteria: A sustainable manufacturing platform, iGEM Americas Regional Jamboree. Indiana University Purdue University Indianapolis, Indianapolis, IN, 8-10 October 2011 | |||
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</ | ==Intellectual Property== | ||
</ | *'''Fisher AB''', Brooks JP, Fong SS (2013) Cellular Strain Design Using Large-Scale Cost Analysis (Virginia Commonwealth University) | ||
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Revision as of 13:49, 15 November 2013
·
Adam B. Fisher |
---|
In nature hybrid species are usually sterile, but in science the reverse is often true.
Hybrid subjects are often astonishingly fertile, whereas if a scientific discipline remains too pure it usually wilts.
- Francis Crick
What I cannot create, I cannot understand.
- Richard Feynman
I am very comfortable with the idea that we can override biology with free will.
- Richard Dawkins
As a researcher, I am broadly interested in integrating approaches and technologies found in synthetic and systems biology, metabolic engineering, chemical biology and quantitative biology to facilitate microbial engineering. At Virginia Tech, I had my first exposure to these emergent fields while working as an undergraduate to build out and characterize a bi-stable genetic toggle switch. Subsequently, I joined the lab of Dr. Stephen Fong at Virginia Commonwealth University endeavoring toward a PhD in Integrative Life Sciences. Currently, I am involved in projects revolving around ex vivo approaches for cloning and synthetic biology, a synthetic biomolecular delivery system and a cost analysis for the interpretation of genome-scale models. My overall research interests include:
- Cell Free Systems
- Synthetic gene assembly
- Protein engineering
- Synthetic metagenomics
- Genome-scale metabolic models
- Statistical models of biological sequences
- Engineered microbial consortia
Education & Training
Virginia Commonwealth University · Richmond, VA · 2011 — 2014
- Ph.D. · Integrative Life Sciences
- Advised by Stephen S. Fong
Virginia Tech · Blacksburg, VA · 2007 — 2011
- B.S. · Biological Sciences
- Concentration in Microbiology & Immunology
- Minor · Business
Publications
- Fisher, A. B., Canfield, Z. B., Hayward, L. C. & Fong, S. ex vivo DNA assembly. Fronteirs in Bioengineering and Biotechnology (2013). doi:10.3389/fbioe.2013.00012
- Vanee N, Fisher AB, Fong SS. “Evolutionary Engineering for Industrial Microbiology”. Subcellular Biochemistry: Reprogramming Microbial Metabolic Pathways (New York: Springer Verlag, 2012), Vol. 64.
Presentations
- Poster - DNA Assembly for free: using cellular lysates to decrease cloning costs, Synthetic Biology 6.0. Imperial College of London, UK 9-12 July 2013
- Talk/Poster - Cyanobacteria: A sustainable manufacturing platform, iGEM Americas Regional Jamboree. Indiana University Purdue University Indianapolis, Indianapolis, IN, 8-10 October 2011
Intellectual Property
- Fisher AB, Brooks JP, Fong SS (2013) Cellular Strain Design Using Large-Scale Cost Analysis (Virginia Commonwealth University)