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B. Sc. Biochemistry & Molecular Biology
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#pathway
Describe the reciprocal pathways of fatty acid synthesis and oxidation.
[
BIOC 3300
]
Explain how metabolic pathways are controlled by compartmentalization within and between organelles and tissues.
[
BIOC 3300
]
Explain what is a Hamiltonian/Eulerian path and what it means to the genome assembly problem.
[
BIOC 4010
]
Recognize the pathway for cholesterol biosynthesis and its regulation.
[
BIOC 3300
]
Explain cellular pathways for protein transport and modification and their effects on protein function.
[
BIOC 3300
]
Explain where the OLC/Eulerian_path algorithm may fail to give the correct genomic sequence.
[
BIOC 4010
]
Identify structure of mono, di, polysaccharides (bonds) and lipids. Explain their distribution, storage, and mobilization.
[
BIOC 2300
]
Recognize the main mechanism of action of insulin and/or glucagon and their pathways.
[
BIOC 2300
]
Associate insulin, glucagon, and epinephrine action with the body’s metabolic state and the activity of metabolic pathways in different tissues.
[
BIOC 3300
]
Outline the major metabolic pathways by which biomolecules (carbohydrates, lipids, amino acids) are synthesized, degraded and transported, and identify the key points at which these pathways are regulated.
[
multiple courses
]
Recognize common features in pathways for amino acid synthesis.
[
BIOC 3300
]
Explain how metabolic pathways are controlled to maintain homeostasis of organisms under normal physiological conditions, and give examples of how this may be influenced by nutrition, drugs, and certain pathological states such as diabetes and obesity.
[
BIOC 1040
]
Integrate amino acid catabolism with other metabolic pathways.
[
BIOC 3300
]
Recall basic principles of regulation of anabolic and catabolic pathways in biochemistry.
[
BIOC 3300
]
Classify pathways for protein catabolism and their roles in cell biology and metabolism.
[
BIOC 3300
]
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