Synthetic Organic Chemistry and Molecular and Cell Biology#
The stream leaders for this combination are:
| Synthetic Organic Chemistry | Prof Alethea Tabor | a.b.tabor@ucl.ac.uk |
| Molecular and Cell Biology | Dr Harry-Luke McClelland | h.mcclelland@ucl.ac.uk |
Term 1
Mathematics for Natural Sciences B |
15 credits |
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Mathematics for Natural Sciences A |
15 credits |
[*] select if you will not be studying PHAS0011
[**] select if you will be studying PHAS0011
(Molecular and Cell Biology)
Choose at least 45 credits
Essential Protein Structure and Function |
15 credits |
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The Biology of Development |
15 credits |
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Immunology |
15 credits |
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Introduction to Coding for Bioscience Research (Python) |
15 credits |
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Computational Biology |
15 credits |
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Eukaryotic Metabolism and Regulation |
15 credits |
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Introduction to Human Genetics |
15 credits |
[*] should be taken if students want to take more advanced development courses e.g. CELL0012, CELL0001
[**] appropriate for students interested in computational approaches. BIOS0030 cannot be taken with NSCI0036
[†] required for INIM00030, INIM0031 and INIM0011
If you wish to discuss your module choices speak to the Stream Leader
(Synthetic Organic Chemistry)
Choose at least 45 credits
(Molecular and Cell Biology)
Major stream select 60-75 credits; Minor stream select 30-45 credits
Advanced statistics and Machine Learning for Biosciences |
15 credits |
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Cancer: Insights from Embryonic Development |
15 credits |
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Computational and Systems Biology |
15 credits |
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Cancer Biology |
15 credits |
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Molecular Mechanisms of Gene Expression and Regulation |
15 credits |
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Advanced Molecular Biology of Protein Regulatory Networks |
15 credits |
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Membrane Trafficking and Mechanisms of Disease |
15 credits |
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Advanced Human Genetics |
15 credits |
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Regulatory Genomics and Evolution |
15 credits |
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Advanced statistics and Machine Learning for Biosciences |
15 credits |
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Mechanisms of Development |
15 credits |
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Cellular and Developmental Neurobiology |
15 credits |
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Stem Cells and Regenerative Medicine |
15 credits |
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Functional Genetics of Model Systems |
15 credits |
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Advanced Molecular Cell Biology |
15 credits |
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Cancer: Cause to Cure |
15 credits |
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BIOS0058 |
Missing info |
[*] suitable for students interested in computational approaches
[**] only 1 of these modules can be taken
[†] modules go well together
Other MCB related modules speak to Stream Leader
(Synthetic Organic Chemistry)
Major stream select 60-75 credits; Minor stream select 30-45 credits
Major stream select 15-30 credits. Minor stream select 0-15 credits
Principles of Drug Design |
15 credits |
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New Directions in Materials Chemistry |
15 credits |
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Inorganic Rings, Chains and Clusters |
15 credits |
(Molecular and Cell Biology)
Major stream select 30-60 credits; Minor stream select 0-30 credits
Research Techniques in Cell Biology |
15 credits |
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Understanding Bioinformatics Resources and Their Application |
15 credits |
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Industrial Synthetic Biology |
15 credits |
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Molecular Virology |
15 credits |
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Functional Genetics of Model Systems |
15 credits |
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Stem Cells and Regenerative Medicine |
15 credits |
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Infectious Diseases in Resource Poor Settings |
15 credits |
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The Immunological Basis of Autoimmune Disease - From Experimental Models to Clinical Practice |
15 credits |
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The Immune System, Cancer, and its Treatment |
15 credits |
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Immunodeficiency and Therapeutics |
15 credits |
[*] can only be taken if given permission by module organiser
Other MCB related modules speak to Stream Leader
(Synthetic Organic Chemistry)
Major stream select 15-45 credits; Minor stream select 0-30 credits