1. DNA

2. DNA Packaging Inside Nucleus
Nucleosome
Supercoil
Protein
Scaffold
Chromosome

10. GENETIC CODE First Base in Codon Third Base in Codon Initiation Codon
UGA
GENETIC CODE
Initiation Codon
Termination Codons U C A G
UUU
Phe
UCU
Ser
UAU
Tyr
UGU
Cys
UUC
UCC
UAC
UGC
UUA
Leu
UCA
UAA
UUG
UCG
UAG
UGG
Trp
CUU
CCU
Pro
CAU
His
CGU
Arg
CUC
CCC
CAC
CGC
CUA
CCA
CAA
Gln
CGA
CUG
CCG
CAG
CGG
AUU
Ile
ACU
Thr
AAU
Asn
AGU
AUC
ACC
AAC
AGC
AUA
ACA
AAA
Lys
AGA
AUG
Met
ACG
AAG
AGG
GUU
Val
GCU
Ala
GAU
Asp
GGU
Gly
GUC
GCC
GAC
GGC
GUA
GCA
GAA
Glu
GGA
GUG
GCG
GAG
GGG
First Base in Codon
Third Base in Codon

12. CELL MEMBRANE Controlling what goes in and out of the cell.
Anchoring of the cytoskeleton to provide shape to the cell
Attaching to the extracellular matrix to help group cells together in the formation of tissues
Transportation of particles by way of ion pumps, ion channels, and carrier proteins
Containing receptors that allow chemical messages to pass between cells and systems
Participation in enzyme activity important in such things as metabolism and immunity

13. CELL MEMBRANE
The cell mem consists of three classes of amphipathic lipids: PHOSPOLIPIDS, GLYCOLIPIDS, STEROIDS
Membrane is held together via weak non-covalent interaction of hydrophobic tails Structure is fluid and not fixed rigidly in place.
Phospholipid molecules are “fluid”: free to diffuse and exhibit rapid lateral diffusion along the layer they are present in.

14. The FATTY ACID chains in phospholipids and glycolipids usually contain an even number of carbon atoms, typically between 14 and 24. The 16- and 18-carbon fatty acids are the most common.
In animal cells, cholesterol is found dispersed in varying degrees throughout cell membranes, where it confers a stiffening and strengthening effect on the membrane. It resides in the irregular spaces between the hydrophobic tails of the membrane lipids.
polar, hydrophilic heads |
7nm
hydrophobic tails

15. SELECTIVE TRANSPORT OF MOLECULES ACROSS MEMBRANE
Nutrients: in Waste: out
Gate Keepers: Transmembrane PROTEINS
Create: ion channels, proton pumps, etc.
Extremely important to cell: e.g. a third of the genes in yeast code specifically for them
Again: chicken and egg
Need DNA to code for membrane proteins but
Need membrane proteins to create selective membrane to allow cell to exist.