Cell Biology And Genetics (LIFE40006)
Imperial College London (ICL)
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![Lecture notes on Cell biology and Genetics - Cell Cycle](/docpics/63e4db972d80e_2353108.jpg)
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Lecture notes on Cell biology and Genetics - Cell Cycle
- Lecture notes • 8 pages • 2023
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- £5.39
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Learning outcomes covered: 
- Understand that the Cell Cycle is a universal feature of dividing cells from yeast to sea urchin to frog oocytes and human cells 
- Recall the names and order of the phases of the eukaryotic cell cycle and describe what happens in each 
- Describe how the Cell Cycle is regulated by CDKs and cyclins, and what happens when it becomes deregulated (i.e. cancer)
![Lecture notes Cell Biology And Genetics on Vesicular Transport](/docpics/63e4dba36bbd4_2353186.jpg)
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Lecture notes Cell Biology And Genetics on Vesicular Transport
- Lecture notes • 9 pages • 2023
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- £7.49
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Learning outcomes: 
- Understand experiments that led to the hypothesis of trafficking 
- Compare and contrast vesicle budding via COPI, COPII, and clathrin coats 
- Explain a molecular mechanism for docking and fusion of transport vesicles
![Lecture notes Cell Biology And Genetics - Protein Translocation](/docpics/63e4dba8d42d5_2353201.jpg)
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Lecture notes Cell Biology And Genetics - Protein Translocation
- Lecture notes • 9 pages • 2023
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- £7.49
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Learning outcomes - 
- Describe the signal hypothesis 
- Compare and contrast co-translational and post-translational translocation 
- Propose a model for protein translocation based on the structures of the SecY complex 
- Describe the biosynthesis of integral membrane proteins
- Compare and contrast different types of cell junctions 
- Explain how structures of integrin and cadherin inform a molecular mechanism for cell adhesion
![Lecture notes Cell Biology And Genetics on Cell Signalling](/docpics/63e4db9a4c2db_2353124.jpg)
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Lecture notes Cell Biology And Genetics on Cell Signalling
- Lecture notes • 7 pages • 2023
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- £5.89
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Learning outcomes: 
Describe the general principles of cell signalling (amplification, ligands/receptors, G-proteins/kinases, distance, resetting, etc.), with reference to specific examples such as Nuclear Receptors, GPCRs, and RTKs
Learning outcomes: 
- Compare and contrast cytoskeletal components 
- Explain how filament polarity can be identified and the role it plays in transport
![Lecture notes Cell Biology And Genetics on Nuclear transport](/docpics/63e4dba63f070_2353192.jpg)
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Lecture notes Cell Biology And Genetics on Nuclear transport
- Lecture notes • 4 pages • 2023
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- £7.49
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Learning Outcomes - 
- Distinguish between the roles of GEF, GAP and Ran in nuclear transport 
- Propose how structures of α and β importins inform how cargo is transported
A detailed summary of all the information you'll need to complete 1st-year Genetics modules.
It describes the translation process, ribosome structures and functions in both eukaryotes and prokaryotes, genetic code, and proofreading.
This describes characteristics of T cells and B cells, in terms of their receptors and development.
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