Cell Biology Advanced

Delve into advanced cell biology concepts through this comprehensive 8-hour course. Explore lipid rafts, mitochondrial protein transport, nuclear pore complexes, and protein targeting to various cellular compartments. Examine the intricacies of vesicle trafficking, protein secretion pathways, and post-translational modifications. Investigate the structure and function of organelles such as peroxisomes, lysosomes, and the Golgi apparatus. Study motor proteins, membrane fusion, and cellular transport mechanisms. Gain insights into cell cycle regulation, protein folding, chaperones, and stem cell biology. Analyze nucleosome structure, modifications, and remodeling processes. Understand apoptosis pathways, proteolysis, and ubiquitination. Master advanced topics in cellular biology to enhance your understanding of complex biological processes.

Lipid Rafts.
Importance of lipid rafts.
Mitochondrial translocation of proteins.
Mitochondrial protein transport.
Mitochondrial protein transport mechanisms.
Nuclear pore complex | nuclear transport.
Nuclear Protein receptor.
Nuclear transport.
Protein targeting to plastids | protein transport.
Protein transport to lysosome | protein targeting.
Endosome, Lysozome and phagosome.
Peroxisomes | structure and function of peroxisomes.
Protein secretion pathway | protein secretion in cell.
Protein secretion pathway (ER to Golgi).
Constitutive secretion and regulated secretion | protein secretion pathway.
Vesicle trafficking | vesicle transport in cell.
Vesicle formation.
COP 2 transport vesicles | vesicle transport.
Membrane fusion in vesicle transport and trafficking.
Motor proteins | dynein, kinesin, myosin.
Vesicle tethering.
Post translational modification of proteins.
Golgi complex structure and function | Golgi apparatus structure.
Protein modifications in Golgi aparatus | post translational modificsation.
Synaptic vesicle formation.
The mitochondrial pathway of apoptosis.
Golgi bodies function and organization.
Cotranslational protein translocation.
Cell cycle checkpoints.
CDKs, cyclines, cell cycle.
Chaperones and protein folding.
Cyclin and CDK.
Chaperones.
Importance of stem cell therapy.
Stem cells basics animation.
Stem cells animation.
Nucleosome and histones | Nucleosome structure.
Nucleosome modification.
Nucleosome Remodeling.
Ubiquitination (protein degradation).
Intrinsic apoptosis pathway.
Caspase and Procaspase in cell death.
Proteolysis.
Protein folding mechanism.
Protein folding models.
Cell cycle regulation.
Cell cycle control.