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LIPID STRUCTURE A: INTERMOLECULAR AGGREGATES MICELLE FORMATION THROUGH INTERMOLECULAR FORCES. LIPID STRUCTURE: FORM COMPLEX STRUCTURES FROM SIMPLE MOLECULE. N SINGLE CHAIN AMPHIPHILES MICELLE. LIPID STRUCTURE B: INTERMOLECULAR AGGREGATES BILAYER FORMATION THROUGH INTERMOLECULAR FORCES.
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LIPID STRUCTURE A: INTERMOLECULAR AGGREGATESMICELLE FORMATION THROUGH INTERMOLECULAR FORCES • LIPID STRUCTURE: FORM COMPLEX STRUCTURES FROM SIMPLE MOLECULE N SINGLE CHAIN AMPHIPHILES MICELLE
LIPID STRUCTURE B: INTERMOLECULAR AGGREGATESBILAYER FORMATION THROUGH INTERMOLECULAR FORCES N DOUBLE CHAIN AMPHIPHILES BILAYER
PROTEIN STRUCTURE: INTRAMOLECULAR FOLDING PROTEIN FOLDING UNFOLDED POLYPEPTIDE CHAIN FOLDED PROTEIN Shortpeptide Long protein
MACROMOLECULE FUNCTION: BINDING M + L ML Ligand binding Ligand release Protein DNA DNA/Protein Complex
MACROMOLECULE FUNCTION:BINDING AND TRANSPORT (PHYSICAL STEP) FACILITATED DIFFUSION R + Lout RL R + Lin Lout Ligand binding receptor receptor Ligand release Lin
MACROMOLECULE FUNCTION BINDING AND KINETICS (CHEMICAL STEP) ENZYME KINETICS E + S ES E + P Substrate binding Product release
MACROMOLEUCLE FUNCTION: BINDING AND CATALYSISSIGNAL TRANSDUCTION M + L ML R + Lout RL R + Lin E + S ES E + P hormone adenylate cyclase receptor out in bg bg a a a GDP GTP GDP GTP cAMP ATP Ga Adenylate cyclase (cat. Domain) PKAin PKAact phosphorylates proteins