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Microbiology
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BIO 123 Microbial PhysiologyOverview of Microbial Physiology
Definition of microbial physiology
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
BIO 123 Microbial PhysiologyOverview of Microbial Physiology
BIO 123 Microbial PhysiologyOverview of Microbial Physiology
Compartmentalization
BIO 123 Microbial PhysiologyOverview of Microbial Physiology
Compartmentalization
BIO 123 Microbial PhysiologyOverview of Microbial Physiology
Group Activity (5 minutes)
What are the major functions of the cell membrane?
BIO 123 Microbial PhysiologyOverview of Microbial Physiology
Major functions of the cell membrane
BIO 123 Microbial PhysiologyOverview of Microbial Physiology
Major functions of the cell membrane Permeability barrier
BIO 123 Microbial PhysiologyOverview of Microbial Physiology
Major functions of the cell membrane Protein anchor
BIO 123 Microbial PhysiologyOverview of Microbial Physiology
Major functions of the cell membrane Energy conservation
BIO 123 Microbial PhysiologyOverview of Microbial Physiology
Growth
BIO 123 Microbial PhysiologyOverview of Microbial Physiology
Growth
BIO 123 Microbial PhysiologyOverview of Microbial Physiology
Growth
BIO 123 Microbial PhysiologyOverview of Microbial Physiology
Growth
BIO 123 Microbial PhysiologyOverview of Microbial Physiology
Growth
BIO 123 Microbial PhysiologyOverview of Microbial Physiology
Growth and Metabolism
BIO 123 Microbial PhysiologyOverview of Microbial Physiology
Growth and Metabolism
BIO 123 Microbial PhysiologyOverview of Microbial Physiology
Growth and Metabolism
BIO 123 Microbial PhysiologyOverview of Microbial Physiology
Growth and Metabolism
BIO 123 Microbial PhysiologyOverview of Microbial Physiology
Growth and Metabolism
BIO 123 Microbial PhysiologyOverview of Microbial Physiology
Evolution
BIO 123 Microbial PhysiologyOverview of Microbial Physiology
Evolution
Bio 123 Fundamentals of Microbial PhysiologyCourse Introduction
Evolution
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
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
BIO 123 Microbial PhysiologyOverview of Microbial Physiology
Motility
BIO 123 Microbial PhysiologyOverview of Microbial Physiology
Motility
BIO 123 Microbial PhysiologyOverview of Microbial Physiology
Differentiation
BIO 123 Microbial PhysiologyOverview of Microbial Physiology
Differentiation Acanthamoeba
BIO 123 Microbial PhysiologyOverview of Microbial Physiology
Differentiation
BIO 123 Microbial PhysiologyOverview of Microbial Physiology
Communication
BIO 123 Microbial PhysiologyOverview of Microbial Physiology
Communication
BIO 123 Microbial PhysiologyOverview of Microbial Physiology
Communication
BIO 123 Microbial PhysiologyOverview of Microbial Physiology
Communication