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B. Sc. Biochemistry & Molecular Biology
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#gene expression
Compare representative mitochondrial genomes (human, plants, algae) in terms of gene content, organization, and expression.
[
BIOC 4403
]
Describe the basic principles of intracellular signal transduction and discuss how these processes may alter gene expression, protein function and cellular fate.
[
multiple courses
]
Distinguish between cis and trans regulation.
[
BIOC 4404
]
Distinguish between gene activation and gene repression.
[
BIOC 4404
]
Explain regulation exerted by different mechanisms of translational control.
[
BIOC 4404
]
Identify the different types of protein factors regulating bacterial gene expression.
[
BIOC 4404
]
Interpret roles of DNA methylation in genome evolution (CpG islands) and gene regulation (epigenetics).
[
BIOC 4403
]
Recognize different types of non-coding RNAs, and recognize/identify their roles in gene expression.
[
BIOC 3400
]
Distinguish the differences between prokaryotes and eukaryotes in terms of genome organization, gene structure, and expression and DNA replication.
[
BIOC 3400
]
Identify the effects of mRNA localization on the consequences and regulation of gene expression.
[
BIOC 4404
]
Identify the different types of DNA and RNA sequence elements regulating eukaryotic gene expression.
[
BIOC 4404
]
Identify the different types of protein factors regulating eukaryotic gene expression.
[
BIOC 4404
]
Explain how different types of DNA and RNA sequence elements are involved regulating eukaryotic gene expression.
[
BIOC 4404
]
Explain the contribution of DNA packaging/chromatin to gene expression and regulation.
[
BIOC 3400
]
Describe the challenges and opportunities for gene regulation offered by chromatin structure.
[
BIOC 4404
]
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