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Transcript of Biological and Medical Physics
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7/27/2019 Biological and Medical Physics
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Copyright Garland Science 2009 Copyright Syracuse University 2010Biological and Medical Physics - Lecture 1
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We know the atomic-level structures of the most important biological macromolecules
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Copyright Garland Science 2009 Copyright Syracuse University 2010Biological and Medical Physics - Lecture 1
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Illustration of Cricks two great polymer languages
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Copyright Garland Science 2009 Copyright Syracuse University 2010Biological and Medical Physics - Lecture 1 4
The chemical structure of nucleotides
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Copyright Garland Science 2009 Copyright Syracuse University 2010Biological and Medical Physics - Lecture 1
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The chemical structure of DNA
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The chemical structure of DNA
Copyright Garland Science 2009 Copyright Syracuse University 2010Biological and Medical Physics - Lecture 1 6
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Copyright Garland Science 2009 Copyright Syracuse University 2010Biological and Medical Physics - Lecture 1 7
Genetic code
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Copyright Garland Science 2009 Copyright Syracuse University 2010Biological and Medical Physics - Lecture 1 8
Idealizations of DNA
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Copyright Garland Science 2009 Copyright Syracuse University 2010Biological and Medical Physics - Lecture 1 9
Idealizations of proteins
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Copyright Garland Science 2009 Copyright Syracuse University 2010Biological and Medical Physics - Lecture 1 10
Idealizations of membranes
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Copyright Garland Science 2009 Copyright Syracuse University 2010Biological and Medical Physics - Lecture 1 12
Idealization of a solution
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Copyright Garland Science 2009 Copyright Syracuse University 2010Biological and Medical Physics - Lecture 1 13
Electron micrograph of a mitochondrion
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Copyright Garland Science 2009 Copyright Syracuse University 2010Biological and Medical Physics - Lecture 1 14
The network of membranes of a mitochondrion
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Copyright Garland Science 2009 Copyright Syracuse University 2010Biological and Medical Physics - Lecture 1 15
The electron transport and ATP synthesis in the inner membrane
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Copyright Garland Science 2009 Copyright Syracuse University 2010Biological and Medical Physics - Lecture 1 16
Mitochondrial division (fission)
h h l f
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Copyright Garland Science 2009 Copyright Syracuse University 2010Biological and Medical Physics - Lecture 1 17
The chemical structure of DNA
h l i i d l b d i l
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Copyright Garland Science 2009 Copyright Syracuse University 2010Biological and Medical Physics - Lecture 1 18
The elastic spring model can be used in several ways
EM i f b i h
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Copyright Garland Science 2009 Copyright Syracuse University 2010Biological and Medical Physics - Lecture 1 19
EM image of a bacteriophage genome
F d l i i bi l i l
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Copyright Garland Science 2009 Copyright Syracuse University 2010Biological and Medical Physics - Lecture 1 20
Fundamental estimates in biological systems
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Copyright Garland Science 2009 Copyright Syracuse University 2010Biological and Medical Physics Lecture 1 21
Announcements
Phillip & Kondev & Theriots Textbook
Chapter 1: Why: Biology by the Numbers
Pages 3-26