Physics and Molecular and Cell Biology#
The stream leaders for this combination are:
| Physics | Dr Pavlo Zubko | p.zubko@ucl.ac.uk |
| Molecular and Cell Biology | Dr Harry-Luke McClelland | h.mcclelland@ucl.ac.uk |
Term 1
(Physics)
Choose at least 45 credits
(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
(Physics)
Major stream select 60-75 credits; Minor stream select 30-45 credits
Electromagnetic Theory |
15 credits |
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Theory of Dynamical Systems |
15 credits |
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Climate and Energy |
15 credits |
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Lasers and Modern Optics |
15 credits |
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Materials and Energy Materials |
15 credits |
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Practical Machine Learning for Physicists |
15 credits |
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Physics of the Earth |
15 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
(Physics)
Major stream select 45-75 credits; Minor stream select 0-30 credits
Atom and Photon Physics |
15 credits |
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Advanced Quantum Theory |
15 credits |
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Particle Physics |
15 credits |
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Advanced Topics in Statistical Mechanics |
15 credits |
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Quantum Computation and Communication |
15 credits |
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Physics of Advanced Materials |
15 credits |
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Theoretical Condensed Matter |
15 credits |
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Molecular Physics |
15 credits |
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Quantum Field Theory |
15 credits |
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Symmetry and Phase Transitions |
15 credits |
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Techniques of High-Performance Computing |
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