"Lec 5 - Cell Culture Engineering" Frontiers of Biomedical Engineering (BENG 100) Professor Saltzman reviews the concept of gene therapy, and gives some examples of where this is applied. Methods to help deliver DNA into cells using viruses and cationic lipids are discussed, as a way to overcome some challenges in gene therapy. Next, Professor Saltzman gives a brief introduction into bacterial and mammalian cell physiology. He describes the different tissues in the body, the cell development/differentiation process, the anchorage dependence of mammalian cells that allows them to form an organism, and the extracellular matrix. 00:00 - Chapter 1. Applications of Gene Transfer 06:40 - Chapter 2. Gene Therapy 14:45 - Chapter 3. Potentials and Limits of Hijacking Viruses 22:28 - Chapter 4. Bacterial and Human Cell Physiology 33:43 - Chapter 5. Cellular Division 38:42 - Chapter 6. Cell Differentiation Complete course materials are available at the Open Yale Courses website: http://open.yale.edu/courses This course was recorded in Spring 2008.
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Tags: adenovirus anchorage dependence cell physiology extracellular matrix gene therapy retrovirus
Uploaded by: yalefrontbio ( Send Message ) on 31-08-2012.
Duration: 52m 33s
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Lec 1 - What Is Biomedical Engineering?
Lec 2 - What Is Biomedical Engineering? (cont.)
Lec 4 - Genetic Engineering (cont.)
Lec 6 - Cell Culture Engineering (cont.)
Lec 7 - Cell Communication and Immunology
Lec 8 - Cell Communication and Immunology (cont.)
Lec 9 - Biomolecular Engineering: Engineering of Immunity
Lec 10 - Biomolecular Engineering: Engineering of Immunity (cont.)
Lec 11 - Biomolecular Engineering: General Concepts
Lec 12 - Biomolecular Engineering: General Concepts (cont.)
Lec 13 - Cardiovascular Physiology
Lec 14 - Cardiovascular Physiology (cont.)
Lec 15 - Cardiovascular Physiology (cont.)
Lec 17 - Renal Physiology (cont.)
Lec 18 - Biomechanics and Orthopedics
Lec 19 - Biomechanics and Orthopedics (cont.)
Lec 23 - Tissue Engineering (cont.)