BIO 123 LEC 1 Overview of Microbial Physiology
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Transcript of BIO 123 LEC 1 Overview of Microbial Physiology
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BIO 123 Microbial PhysiologyOverview of Microbial Physiology
Definition of microbial physiology
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BIO 123 Microbial PhysiologyOverview of Microbial Physiology
Group activity (5 minutes)
Enumerate the different properties of cellular life
Determine if the property is present in all or some cells only
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BIO 123 Microbial PhysiologyOverview of Microbial Physiology
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BIO 123 Microbial PhysiologyOverview of Microbial Physiology
Compartmentalization
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BIO 123 Microbial PhysiologyOverview of Microbial Physiology
Compartmentalization
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BIO 123 Microbial PhysiologyOverview of Microbial Physiology
Group Activity (5 minutes)
What are the major functions of the cell membrane?
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BIO 123 Microbial PhysiologyOverview of Microbial Physiology
Major functions of the cell membrane
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BIO 123 Microbial PhysiologyOverview of Microbial Physiology
Major functions of the cell membrane Permeability barrier
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BIO 123 Microbial PhysiologyOverview of Microbial Physiology
Major functions of the cell membrane Protein anchor
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BIO 123 Microbial PhysiologyOverview of Microbial Physiology
Major functions of the cell membrane Energy conservation
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BIO 123 Microbial PhysiologyOverview of Microbial Physiology
Growth
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BIO 123 Microbial PhysiologyOverview of Microbial Physiology
Growth
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BIO 123 Microbial PhysiologyOverview of Microbial Physiology
Growth
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BIO 123 Microbial PhysiologyOverview of Microbial Physiology
Growth
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BIO 123 Microbial PhysiologyOverview of Microbial Physiology
Growth
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BIO 123 Microbial PhysiologyOverview of Microbial Physiology
Growth and Metabolism
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BIO 123 Microbial PhysiologyOverview of Microbial Physiology
Growth and Metabolism
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BIO 123 Microbial PhysiologyOverview of Microbial Physiology
Growth and Metabolism
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BIO 123 Microbial PhysiologyOverview of Microbial Physiology
Growth and Metabolism
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BIO 123 Microbial PhysiologyOverview of Microbial Physiology
Growth and Metabolism
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BIO 123 Microbial PhysiologyOverview of Microbial Physiology
Evolution
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BIO 123 Microbial PhysiologyOverview of Microbial Physiology
Evolution
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Bio 123 Fundamentals of Microbial PhysiologyCourse Introduction
Evolution
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BIO 123 Microbial PhysiologyOverview of Microbial Physiology
Group Activity (5 minutes) Make a Venn diagram and name structures unique to
prokaryotes or eukaryotes, and structures common to both
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BIO 123 Microbial PhysiologyOverview of Microbial Physiology
Evolution
Prokaryotes Eukaryotes
Nucleus Organelles 80S ribosome 3 RNA pol Ribosomes sensitive to
diphtheria toxin Telomerase
Peptidoglycan Ether-linked ML Branched ML 70S ribosome Formylmethionine
initiator Operons 1 RNA pol Ribosome sensitive to
chloramphenicol Methanogenesis Nitrogen-fixation
Ester-linked ML Unbranched ML Methionine initiator Plasmids Photosynthesis Glycolysis DNA ligase DNA gyrase DNA helicase DNA polymerase Krebs cycle
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BIO 123 Microbial PhysiologyOverview of Microbial Physiology
Motility
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BIO 123 Microbial PhysiologyOverview of Microbial Physiology
Motility
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BIO 123 Microbial PhysiologyOverview of Microbial Physiology
Differentiation
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BIO 123 Microbial PhysiologyOverview of Microbial Physiology
Differentiation Acanthamoeba
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BIO 123 Microbial PhysiologyOverview of Microbial Physiology
Differentiation
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BIO 123 Microbial PhysiologyOverview of Microbial Physiology
Communication
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BIO 123 Microbial PhysiologyOverview of Microbial Physiology
Communication
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BIO 123 Microbial PhysiologyOverview of Microbial Physiology
Communication
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BIO 123 Microbial PhysiologyOverview of Microbial Physiology
Communication