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Difference between revisions of "User:Kdahlquist"
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Loyola Marymount University | Loyola Marymount University | ||
1 LMU Drive, MS8220 | 1 LMU Drive, MS8220 | ||
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I am the head of the [http://myweb.lmu.edu/kdahlqui Dahlquist Lab] at [http://www.lmu.edu Loyola Marymount University]. I learned about [[OpenWetWare]] through a Google search when I was searching for a protocol online. I've joined because I run a lab with undergraduates at a primarily undergraduate institution and would like to post my protocols and supply lists online for easy access and to share them with the community. | I am the head of the [http://myweb.lmu.edu/kdahlqui Dahlquist Lab] at [http://www.lmu.edu Loyola Marymount University]. I learned about [[OpenWetWare]] through a Google search when I was searching for a protocol online. I've joined because I run a lab with undergraduates at a primarily undergraduate institution and would like to post my protocols and supply lists online for easy access and to share them with the community. | ||
Revision as of 00:15, 20 November 2008
Contact Info
Kam D. Dahlquist, Ph.D. Assistant Professor Department of Biology Loyola Marymount University 1 LMU Drive, MS8220
I am the head of the Dahlquist Lab at Loyola Marymount University. I learned about OpenWetWare through a Google search when I was searching for a protocol online. I've joined because I run a lab with undergraduates at a primarily undergraduate institution and would like to post my protocols and supply lists online for easy access and to share them with the community.
Education
- 2000, PhD, University of California, Santa Cruz
- 1993, BA, Pomona College
Research interests
- XMLPipeDB: A Reusable, Open Source Tool Chain for Building Relational Databases from XML Sources; creating MAPPs and Gene Databases for the GenMAPP software
- The Global Transcriptional Response of Saccharomyces cerevisiae to Cold Shock and Recovery
- Mathematical Modeling of the Transcriptional Network Controlling the Environmental Stress Response in Saccharomyces cerevisiae
- Identifying Soil Bacteria and Biochemical Pathways in the Ballona Wetlands for the Bioremediation of Organic Pollutants
