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Stern 9e Active Art
available via the DCM |
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Levels of biological organization |
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Flow diagram for the scientific method |
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Scientific method |
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Six atoms common to organisms |
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Ionically-bonded molecule |
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Formation of sucrose |
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Formation of a peptide bond |
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How enzymes work |
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Formation of ionic bonds--NaCl |
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Buffer formation |
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Making and breaking macromolecules |
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Levels of protein structure |
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Enzyme catalytic cycle |
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Evolution of the eukaryotic cell |
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Fluid-mosaic model of plasma membrane structure |
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The cell cycle |
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Stages of mitosis |
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Theory of endosymbiosis |
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Facilitated diffusion |
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Stem diversity |
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Classification of leaves |
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Development of a dicot embryo |
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Osmosis
in animal and plant cells |
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Cohesion-tension
theory of xylem transport |
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Pressure-flow
theory of phloem transport |
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Diffusion |
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Methods
of membrane transport |
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Phosphorylation
by substrate |
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How
transpiration works |
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How
translocation works |
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Citric
acid cycle |
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Fermentation |
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Light-dependent
reactions: noncyclic electron pathway |
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Light-independent
reactions: the Calvin cycle |
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Types
of photosynthesis |
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Overview
of photosynthesis |
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The
light reactions |
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Cellular
respiration overview |
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Overview
of energy metabolism |
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Chloroplasts,
mitochondria and the energy cycle |
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Redox
reactions |
|
Aerobic
respiration overview |
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Glycolysis
overview |
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Krebs
cycle overview |
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Chemiosmosis |
|
Overview
of ATP synthesis |
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Theoretical
ATP yield |
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Photosystems
I and II |
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Phytochrome
function |
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Alternation
of generations in a flowering plant |
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Plant
and animal life cycles |
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Overview
of meiosis |
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Stages
of meiosis |
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Crossing-over
recombines genes |
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How
meiosis works |
|
Meiosis |
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Generalized
plant life cycle |
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Protein
synthesis, part one |
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Protein
synthesis, part two |
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Mendel's
law of segregation |
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Linked
genes dihybrid cross |
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Linked
genes and crossing-over |
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Aneuploidy |
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DNA
double helix |
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DNA
replication |
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Central
dogma of biology (1) |
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The
stage of transcription |
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Relationship
among RNA and DNA |
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Transcription
of RNA from DNA |
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From
DNA to RNA to protein |
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Translation
initiation |
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Translating
a polypeptide |
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Bacterial
transformation |
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Transduction |
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F2
generation |
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Central
dogma of biology (2) |
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How
a genetic engineering experiment works |
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How
the polymerase chain reaction works |
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Glaciation
encourages species formation |
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Radioactive
isotope dating |
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Types
of natural selection |
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Hershey-Chase
experiment |
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How
HIV infects a cell |
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Prokaryote
binary fission |
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Bacterial
conjugation |
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Life
cycle of a zygomycete |
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Life
cycle of an ascomycete |
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Life
cycle of a basidiomycete |
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Flowering
plants are either monocots or dicots |
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Angiosperm
embryonic development |
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Angiosperm
life cycle |
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Urine
formation in the nephron |
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The
water cycle |
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The
carbon cycle |