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alyssa farber
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Decks in this class (23)
Lecture 8: Membrane transport
No deck description has yet been added by the author.
17
cards
Lecture 9: Protein sorting
No deck description has yet been added by the author.
15
cards
Lecture 10: Secretory & endocytic pathway
No deck description has yet been added by the author.
19
cards
Lecture 11: Cell cycle
No deck description has yet been added by the author.
13
cards
Lecture 12: Mitosis
No deck description has yet been added by the author.
20
cards
Lecture 14: From one cell to an organism
1. Introduce the field of developmental
biology
2. Review cell processes essential for
the making of an organism
3. Uncover the value of studying model
organisms to illuminate conserved
mechanisms in development
4. Understand major events in
embryonic development
5. Understand the different approaches
to study development
24
cards
Lecture 15: How Cells Become Different
Understand that gene expression can be
regulated at many different levels
• Understand the concept of promoter
• Understand that transcriptional regulators are
DNA binding proteins that can act as activators or
repressors
• Understand how the Lac operon is regulated in
bacteria
• Appreciate the complexity of eukaryotic
transcriptional regulation
• Understand the definition of enhancers and their
roles in transcriptional regulation
27
cards
Lecture 16: Gene Expression
Understand that gene expression can be
regulated at many different levels
• Understand the concept of promoter
• Understand that transcriptional regulators are
DNA binding proteins that can act as activators or
repressors
• Understand how the Lac operon is regulated in
bacteria
• Appreciate the complexity of eukaryotic
transcriptional regulation
• Understand the definition of enhancers and their
roles in transcriptional regulation
18
cards
Lecture 17: Gene Expression
• Understand the concepts of nucleosomes and
chromatin structure
• Understand that chromatin remodeling
complexes, histone modification enzymes, and
DNA methylation can all regulate chromatin
structure, thus affecting gene expression
• Understand the concept of a “master regulator”
• Understand that cell memory can be mediated
by positive feedback, DNA methylation or
histone modification
• Understand the concept of epigenetic
inheritance
11
cards
Lecture 18: Cell Expression
-signal transduction
- 4 major signaling systems
-delta-Notch signaling
nuclear hormone receptors acting as intracellular receptors
-cell surface receptors act via intracellular molecules to elicit cellular responses
-molecular switches + signal transduction
-secondary messengers + feedback regulation
22
cards
L19: Cell Signaling II
No deck description has yet been added by the author.
22
cards
L20: Pattern Formation of Drosophila
No deck description has yet been added by the author.
33
cards
L21: Early Amphibian Development
No deck description has yet been added by the author.
26
cards
L22: Morphogenesis
No deck description has yet been added by the author.
20
cards
L23: Stem Cells
No deck description has yet been added by the author.
21
cards
L24: Telomeres, Telomerase, and Aging
No deck description has yet been added by the author.
13
cards
L2: Cells & Organelles
No deck description has yet been added by the author.
22
cards
L3: Carbohydrates & Nucleic Acids
No deck description has yet been added by the author.
1
cards
L4: Protein Structure
No deck description has yet been added by the author.
0
cards
L5: Protein Function
No deck description has yet been added by the author.
0
cards
L6: Cytoskeleton & motor proteins
No deck description has yet been added by the author.
0
cards
L7: Membrane Structure
No deck description has yet been added by the author.
0
cards
L1: Introduction
No deck description has yet been added by the author.
6
cards
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bio 1350
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