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A Problem-Solving Approach to Chromatography in the Biochemistry Lab
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Abstract
Students are given mixtures of colored compounds and three chromatographic matricies (cation exchange, anion exchange, and gel filtration). In the first of two lab periods students are given two mixtures of three components each. They "run" each of these samples on each of the three columns. Before the next lab period, each student is expected to design a multi-column procedure for separating a five-component mixture using the knowledge gained from the first phase of the experiment. In the second lab period, students perform the procedure they have devised. This experiment gives students experience in linked multiple chromatographic steps that are typically used in protein purification. Colored compounds are used instead of proteins to eliminate the need for "reading" fractions in a spectrophotometer and to allow students to watch the separations happen in "real time". Since the physical and chemical properties (size, charge, etc.) of the compounds involved are well defined, students are able to correlate these properties with the chromatographic behavior of the compound. This experiment also provides an occasion for students to exercise their problem-solving skills.
Keywords (Audience):
Upper-Division UndergraduateKeywords (Domain):
BiochemistryKeywords (Pedagogy):
Hands-On Learning / ManipulativesKeywords (Subject):
ChromatographyCiting Articles
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This article has been cited by 3 ACS Journal articles (3 most recent appear below).
Size Exclusion Chromatography: An Experiment for High School and Community College Chemistry and Biotechnology Laboratory Programs
Kathryn K. Davis , Linda S. BrunauerJournal of Chemical Education2008 85 (5), 683Size Exclusion Chromatography: An Experiment for High School and Community College Chemistry and Biotechnology Laboratory Programs
Kathryn K. Davis , Linda S. BrunauerJournal of Chemical Education2008 85 (5), 683A simple multiday laboratory exercise suitable for use in a high school or community college chemistry course or a biotechnology advanced placement biology course is described. In this experiment students gain experience in the use of column ...
Survey of Biochemical Separation Techniques
Melanie R. NilssonJournal of Chemical Education2007 84 (1), 112Survey of Biochemical Separation Techniques
Melanie R. NilssonJournal of Chemical Education2007 84 (1), 112The separation of a mixture of myoglobin and blue dextran is explored using five different biochemical separation techniques (syringe filtration, Centricon, dialysis, gel filtration, and solid-phase extraction). The mixture is green and separation is ...
Biochemical Applications in the Analytical Chemistry Lab
Jeffrey Ruttencutter , Cynthia StrongJournal of Chemical Education2004 81 (12), 1706Biochemical Applications in the Analytical Chemistry Lab
Jeffrey Ruttencutter , Cynthia StrongJournal of Chemical Education2004 81 (12), 1706In response to the increasing importance of biochemical applications in modern analytical chemistry and the high level of interest in biochemistry among students at Cornell College, we sought to incorporate more biochemical concepts and methods into the ...
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- Received: August 03, 2009
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