Episodi
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Review for Final Exam: This class covers all topics discussed in the course, with an emphasis on cell signaling.
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Lecture 28: The instructor reviews some major pathways dealing with signal transduction and an application of principles learned to cancerous cells.
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Episodi mancanti?
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Lecture 27: Kaplan continues his discussion of signal transduction, the role of signals in cell migration, and the ability of cells to see which direction to move.
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Lecture 26: Kaplan talks about properties of signaling modules and different kinds of membrane receptors that interpret signals from outside the cell.
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Lecture 25: This class is a wrap-up of cell division and checkpoints in the regulatory cycle, and introduction to how cells interpret various biochemical signals.
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Lecture 24: Students learn more about cell division, and introduction to cell checkpoints along the regulatory cycle.
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Review for Midterm 2: This covers protein trafficking, the cytoskeleton and cell division.
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Lecture 22: This is a continued discussion of the regulation of cell division -- how mitosis is coordinated within the cell.
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Lecture 21: The stages of the cell cycle, the regulatory cycle, and biochemical switches involved in these two cycles are covered.
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Lecture 20: Kaplan wraps up of the cytoskeleton, relation of microtubles to cell motility, introduction to cell division.
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Lecture 19: In this class, microtubule dynamics and stability and how these aspects of microtubules are controlled to produce energy and force for processes such as mitosis.
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Lecture 18: In a continued discussion of intermediate filaments, Kaplan talks about their relation to other cytoskeletal filaments and microtubule dynamics.
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Lecture 17: This class covers actin polymerization, and an introduction to other parts of the cytoskeleton, such as the intermediate filaments.
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Lecture 16: Kaplan continues talking about actin, how it can lead to cell motility, as well as how it and other filament dynamics are regulated within the cell.
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Lecture 15: Kaplan discusses how cytoskeletal elements of a cell are involved in cell movement, such as actin.
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Review for Midterm 1: This class covers cell biology techniques, cell compartmentalization, cell membranes, the secretory pathway and protein trafficking.
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Lecture 14: The professor wraps up protein trafficking and non-secretory transport.
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Lecture 12: Kaplan gives an in-depth discussion of in-vitro coupled translation and translocation.
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Lecture 11: Kaplan reviews glycosylation and gives an in-depth look at the work done to understand protein translocation and examples of protein trafficking.
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Lecture 10: In this continued discussion on protein translocation, Kaplan gives emphasis to glycosylation and the Scavenger pathway.
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