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What is life?
What is evolution?
Evolution by Natural Selection
Other Mechanisms of Evolution
Population Genetics: the Hardy-Weinberg Principle
Earth History and History of Life on Earth
Origin of Life on Earth
Molecules and Metabolism
Chemical context for biology: origin of life and chemical evolution
Membranes and Transport
Energy and enzymes
Respiration, chemiosmosis and oxidative phosphorylation
Oxidative pathways: electrons from food to electron carriers
Fermentation, mitochondria and regulation
Why are plants green, and how did chlorophyll take over the world? (Converting light energy into chemical energy)
Genes and Genomes
Gene expression: DNA to protein
Cell division: mitosis and meiosis
Chromosome theory of inheritance
Patterns of inheritance
Introduction to Ecology; Major patterns in Earth’s climate
Population Ecology 1
Population Ecology 2
Community Ecology 1
Community Ecology 2
Cloning and Stem Cells
Human evolution and adaptation
Carbon in above-ground tree biomass for forests growing on N-rich and N-poor lithology.
September 26, 2011
Full size is
720 × 540
cichlid figure 1
Carbon in above-ground tree biomass for forests growing on N-rich and N-poor lithology.Carbon in above-ground tree biomass for forests growing on N-rich and N-poor lithology.
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eradication of Asian tiger mosquitos
gut bacteria and stunted growth
gut pathogens and autoimmune disease
human milk oligosaccharides
Legionella and mitochondria
mannosides and uropathogenic E. coli
origin of sickle cell mutation
trehalose and C. difficile
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