front 1 Antibody | back 1 immune system |
front 2 Contractile | back 2 muscle, actin/myosing muscles |
front 3 Messengers | back 3 insulin / glycogen |
front 4 Structural | back 4 carbohydrates, collagen |
front 5 storage | back 5 casein - milk |
front 6 transport | back 6 hemoglobin |
front 7 enzymes | back 7 ETP synthase? |
front 8 gene expression | back 8 well |
front 9 Proteins | back 9 do everything except instruction manual and long term energy storage. |
front 10 Mutation results in AA substitution | back 10 Effect depends on: what was the change? what part of the protein? and how vital was the protein? |
front 11 Protein domain | back 11 collection of proteins that descend from a common ancestor and share similar functions, sequence or structure |
front 12 Exon shuffling | back 12 hybrid genes, breaking and joining of exons of one gene w/ another |
front 13 Motif duplication ?? | back 13 no data |
front 14 Robustness & stability | back 14 How much can the AA sequence change and still do its job How well the job is done despite environmental variability |
front 15 Purfying selection (negative) | back 15 reduced genetic diversity |
front 16 Positive selection | back 16 advantageous sweeps population |
front 17 De novo | back 17 new gene evolve from non-genic ancestral dna (RARE) |