Goals: Living organisms can be described as open thermodynamic systems in which exergonic and endergonic events are coupled in the process of growth and reproduction. We will examine aspects of cellular metabolism with particular attention to the integration and regulation of cellular systems. Modern biochemical techniques will be introduced in laboratory exercises. Content: Molecular basis of cellular function, protein structure/function relationships, enzyme function and kinetics, reaction mechanisms, energetics and catabolism, biosynthesis of cellular macromolecules. Taught: Fall term. Prerequisites: BIOL 3060, CHEM 3460, or permission of instructor. BIOL 3050 is strongly recommended
Goals: To introduce students to the structure and function of prokaryotic and eukaryotic cells, and ...
Goals: To continue the process of understanding the molecular design of living systems begun in Bioc...
Goals: To continue the process of understanding the molecular design of living systems begun in Bioc...
Goals: Living organisms can be described as open thermodynamic systems in which exergonic and enderg...
Goals: Living organisms can be described as open thermodynamic systems in which exergonic and enderg...
Goals: Living organisms can be described as open thermodynamic systems in which exergonic and enderg...
Goals: Living organisms can be described as open thermodynamic systems in which exergonic and enderg...
Goals: Living organisms can be described as open thermodynamic systems in which exergonic and enderg...
Goals: Living organisms can be described as open thermodynamic systems in which exergonic and enderg...
Goals: Living organisms can be described as open thermodynamic systems in which exergonic and enderg...
Goals: Living organisms can be described as open thermodynamic systems in which exergonic and enderg...
Goals: To introduce students to the structure and function of prokaryotic and eukaryotic cells, and ...
Goals: To introduce students to the structure and function of prokaryotic and eukaryotic cells, and ...
Goals: To introduce students to the structure and function of prokaryotic and eukaryotic cells, and ...
Goals: To continue the process of understanding the molecular design of living systems begun in Bioc...
Goals: To introduce students to the structure and function of prokaryotic and eukaryotic cells, and ...
Goals: To continue the process of understanding the molecular design of living systems begun in Bioc...
Goals: To continue the process of understanding the molecular design of living systems begun in Bioc...
Goals: Living organisms can be described as open thermodynamic systems in which exergonic and enderg...
Goals: Living organisms can be described as open thermodynamic systems in which exergonic and enderg...
Goals: Living organisms can be described as open thermodynamic systems in which exergonic and enderg...
Goals: Living organisms can be described as open thermodynamic systems in which exergonic and enderg...
Goals: Living organisms can be described as open thermodynamic systems in which exergonic and enderg...
Goals: Living organisms can be described as open thermodynamic systems in which exergonic and enderg...
Goals: Living organisms can be described as open thermodynamic systems in which exergonic and enderg...
Goals: Living organisms can be described as open thermodynamic systems in which exergonic and enderg...
Goals: To introduce students to the structure and function of prokaryotic and eukaryotic cells, and ...
Goals: To introduce students to the structure and function of prokaryotic and eukaryotic cells, and ...
Goals: To introduce students to the structure and function of prokaryotic and eukaryotic cells, and ...
Goals: To continue the process of understanding the molecular design of living systems begun in Bioc...
Goals: To introduce students to the structure and function of prokaryotic and eukaryotic cells, and ...
Goals: To continue the process of understanding the molecular design of living systems begun in Bioc...
Goals: To continue the process of understanding the molecular design of living systems begun in Bioc...