Beth Beason

WEBSITE(S)| http://www.bioc.rice.edu/~bbeason/

Mentored presenters may have participated in these courses

Student Project Titles List

Thermoplant: Automated design of RNA thermometers for controlling the output of rhizobacterial enzymes that promote plant climate resilience

Research Areas

Caprette, David R., Sarah Armstrong, and K. Beth Beason. (2005) Modular Laboratory Courses: An alternative to a traditional laboratory program. Biochemistry and Molecular Biology Education 33(5): 351-355 Beason, K. Beth and Caprette, David. Integrating a Sciences and Engineering Laboratory Program, Experimental Biology 2005, San Diego, CA. Brewster, Jay L., Beason, K. Beth, Eckdahl, Todd, and Evans, Irene M. (2004) The Microarray Revolution: Perspectives from Educators, Biochemistry and Molecular Biology Education 32(4): 217-227 Beason, K. Beth, Caprette, David, and Rudolph, Frederick B. Teaching communication skills in a laboratory course, Experimental Biology 2003, San Diego, CA. Beason, K. Beth, Rudolph, Frederick B., and Caprette, David. Coordinating laboratory courses across a science and engineering curriculum, Experimental Biology 2003, San Diego, CA. Lai, Yen-Tsun, K. Beth Beason, Gregory P. Brames, Jay S. Desgrosellier, Michelle A. Cleggett, Marlene V. Shaw, Christopher B. Brown, and Joey V. Barnett. (2000) Activin receptor-like kinase 2 can mediate atrioventricular cushion transformation. Dev. Biol. 222: 1-11 Beason, K. Beth, Cory G. Acuff, Mark E. Steinhelper, and Terry S. Elton. (1999) An A/T-rich cis-element is essential for rat angiotensin II type 1A receptor transcription in vascular smooth muscle cells. Biochimica et Biophysica Acta 1444: 25-34 Baogen, Su, Mickey M. Martin, K. Beth Beason, Patrick J. Miller, and Terry S. Elton. (1994) The genomic organization and functional analysis of the promoter for the human angiotensin II type 1 receptor. Biophys. Biochem. Res. Commun. 204(3): 1039-1046 Benos, Dale J., Sonia Cunningham, Randy R. Baker, K. Beth Beason, Young Oh, and Peter R. Smith. (1992) Molecular characteristics of amiloride-sensitive sodium channels. Rev. of Physiol. Biochem. & Pharm. 12: 31-113