Block 1: Metabolism and mass transport
Digestion Cohesion-tension Oxyhaemoglobin Mass flow theory Water
in plants translocation(x
ray the
movement of
sucrose)
Blood glucose Carbohydrates, Fish Gills Respiration Water as a
polymers countercurrent metabolite
principle Water as a
solvent
Block 2: DNA
Mutation Genetic DNA structure: Translation and Mitosis and cell Meiosis
technologies: PCR Phosphodiester transcription cycle Plasmids
Electrophoresis bonds
Genetic Hydrogen bonds
fingerprinting Nucleotides
Cancer Personalised Proteins, Cancer, Genetic
Speciation & medicine, drugs enzymes, variation
Variation development channels, (natural
carriers, selection)
antibodies,
Acetylation of
histones
Digestion Cohesion-tension Oxyhaemoglobin Mass flow theory Water
in plants translocation(x
ray the
movement of
sucrose)
Blood glucose Carbohydrates, Fish Gills Respiration Water as a
polymers countercurrent metabolite
principle Water as a
solvent
Block 2: DNA
Mutation Genetic DNA structure: Translation and Mitosis and cell Meiosis
technologies: PCR Phosphodiester transcription cycle Plasmids
Electrophoresis bonds
Genetic Hydrogen bonds
fingerprinting Nucleotides
Cancer Personalised Proteins, Cancer, Genetic
Speciation & medicine, drugs enzymes, variation
Variation development channels, (natural
carriers, selection)
antibodies,
Acetylation of
histones
