Cell structure and organization -#1
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Hartwell Cell Cycle - Cancer Overview
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Zebrafish blood cell circulation in vessels
Note that blood flows toward the tail through a dorsal vessel while blood flows toward the head through a ventral vessel (you can see blood flow laterally through developing capillaries).
Zebrafish blood cell circulation in tail
Close up view of blood flow in developing Danio showing blood cells moving through blood vessels.
Cell Signaling and Apoptosis
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Zebrafish blood cell circulation
Close up view of blood flow in developing Danio showing blood cells moving through blood vessels.
Cell and Tissue dysfunction, Cancer and Experimental Strategies to Develop Anti-cancer Therapeutics
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Multi-cellularity: Cell Shape and Function, Tissue Specialization, Homeostasis
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Cell Cycle, Mitosis, and Reproduction of Cells
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Cytoskeleton, Cell Adhesion
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Intro: The Cell Theory, Bacteria, Animal Cells, Evolution, (Viruses, Mitochondria)
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Junior Solar Sprint and Hydrogen Fuel Cell Car Competitions
The National Renewable Energy Laboratory hosts the U.S. Department of Energy's Junior Solar Sprint/Hydrogen Fuel Cell (JSS/HFC) Car Competitions. Middle School teams from all over the Colorado Region participate in this fun, educational and exciting event. Teams work together building solar and/or hydrogen fuel cell cars with guidance from a parent or teacher coach to compete in race and design categories. A "Spirit Award" is also presented to the team recognized for good sportsmanship. Building
Mitosis and Cell Division
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Cell Adhesion, Motility and Division
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Actin-Binding Proteins and Cell Migration
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Virtual yeast cell
This rich learning object is used to introduce yeast cytology to students taking Module D24BS3 Brewery Yeast Management as part of the MSc in Brewing Science. The virtual cell permits the students to understand structure and function of yeast organelles.
Orchestrating cell separation in plants: What are the risks and benefits?
In this podcast, Professor Roberts from the School of Biosciences discusses his research into the mechanism responsible for regulating cell separation in plants. In particular how plants 'shed' parts of themselves such as leaves or fruit. Professor Roberts explores the potential application of his research, through prevention or encouraging of the 'shedding' process, agricultural harvests could potentially be increased or even synchronised.
Professor Roberts also discusses the resistance faced
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Presentation YOU!
The reversal of cell differentiation and prospects for cell replacement therapy
The inaugural Anne McLaren Memorial Lecture, "The reversal of cell differentiation and prospects for cell replacement therapy", given by Prof Sir John Gurdon FRS, University of Cambridge, at Lady Margaret Hall, Oxford, on 7 November 2008. Visit http://media.conted.ox.ac.uk/McLaren-2008 to view the full presentation from Professor Sir John Gurdon FRS, including his slides.
