Skip to Main Content Area
B. Sc. Biochemistry & Molecular Biology
Browse Learning Outcomes
Daedalus Help:
Currently there is no help available for this page.
Tags to narrow search
(tags which would result in an empty result are excluded from display)
:
#amino acid
(1)
#binding
(1)
#bioinformatics
(1)
#carbohydrate
(3)
#chemistry
(1)
#enzyme
(1)
#folding
(1)
#free energy
(2)
#homeostasis
(1)
#human
(2)
#kinetic
(1)
#lipid
(2)
#mechanism
(3)
#membrane
(1)
#metabolism
(2)
#molecular interactions
(1)
#molecular modelling
(1)
#nutrition
(4)
#phosphorylation
(1)
#protein
(3)
#quantum mechanism
(1)
#reaction
(2)
#signal
(1)
#spectroscopy
(1)
#statistics
(1)
#structure
(1)
#transport
(1)
Selected tags:
#energy
Discriminate between and calculate the roles of entropy, enthalpy, and molecular interactions in protein stability, folding and ligand binding.
[
BIOC 3700
]
Draw energy level diagrams showing the quantum mechanical basis of electronic absorption and emission spectroscopy with specific reference to the Franck-Condon principle.
[
BIOC 4702
]
Given free energy of product and substrate or the reduction potential of half reaction, calculate the free energy changes of a reaction and decide whether the reaction would be spontaneous.
[
BIOC 2300
]
Recognize high energy intermediates and their role in reaction energetics: substrate level phosphorylation.
[
BIOC 3300
]
Show how entropic contributions lead to huge intramolecular rate enhancements.
[
BIOC 4701
]
Understand the principles of bioenergetics, including the implications of free energy change occurring in a chemical reaction.
[
BIOC 2300
]
Analyze the detailed mechanism for the generation of the proton motive force across bioenergetic membranes.
[
BIOC 4700
]
Describe how organisms obtain, store, and utilize energy through metabolic interconversion of biomolecules.
[
BIOC 2300
]
Explain how dietary carbohydrates, fats and proteins are converted to energy.
[
BIOC 3300
]
Analyze the quantity of energy produced from each dietary component (carbohydrates, fatty acid and amino acids).
[
BIOC 3300
]
Define energy balance and describe the biochemical changes that occur in energy excess.
[
BIOC 4306
]
Explain how energy and glucose homeostasis are maintained in the human body, and recognize the roles of peripheral and central signals.
[
BIOC 2300
]
Describe how humans obtain, store, and utilize energy through metabolic transformations of biomolecules, and outline the fundamental principles of nutritional balance.
[
BIOC 1040
]
Distinguish Force Field and statistical mechanics energies.
[
BIOC 4010
]
Daedalus Menu
Browse
Courses
Learning Outcomes
User login
Username:
*
Password:
*
Create new account
Request new password
