Chemical Bonds
covalent bonds
shared electron pairs
ex: H2O
Oxygen shares its electrons w/
two Hydrogen atoms, making a
stable electron configuration
polar covalent bond
electrons are shared unequally due to difference in electronegativity (EN)
ex: H2O
Oxygen has a higher EN, so Hydrogen's electrons are pulled toward Oxygen
ionic bonds
attraction between
charged ions
ex: NaCl
Na has a charge of +1
and Cl has a charge of -1
Hydrogen bonds
polar
Hydrogen bonded to a highly
electronegative atom
Hydrogen bonding occurs w/
FON (Florine, Oxygen, Nitrogen)
electronegativity:
Measure of the ability of an atom to attract electrons in the context of a chemical bond
present in DNA and proteins
Van der Waals interaction
weak interactions between atoms;
interaction of electrons of nonpolar substances
Hydrophilic interactions
interaction of polar substances in
the presence of nonpolar substances
Water
cohesion:
interaction with molecules
of the same substance.
adhesion:
interaction with molecules of different substance
ex: allows water to travel up the trees
has high specific heat
w' Hydrogen bonds, helps regulate temperature
Hydrophobic interactions
interaction of nonpolar substances in the presence of polar substances
Dipole-Dipole
interaction between polar molecules
Ion-Dipole
attractive force between an ion and
a neutral molecule
Biological Molecules
Carbohydrates
Monomer: Monosaccharides (Glucose, Fructose)
Polymer: Polysaccharides (Starch, Glycogen, Cellulose)
Found in: Cell walls (cellulose, peptidoglycan), cell membranes (glycoproteins, glycolipids)
Lipids
Phospholipids, Triglycerides, Steroids
Found in: Cell membranes (phospholipid bilayer), Hormones (steroids), Energy stores (fat droplets)
Proteins
Monomer: Amino Acids
Structure: Primary, Secondary (α-helix, β-sheet), Tertiary, Quaternary
Functions: Enzymes (catalysts), Transport proteins, Receptors, Structural components (cytoskeleton, extracellular matrix)
Polymer: Polypeptides
Nucleic Acids
Monomer: Nucleotides (A, T, G, C, U)
Functions: Store genetic information, Direct protein synthesis
Polymer: DNA & RNA
Cell Components
Prokaryotic Cells (Bacteria & Archaea)
No membrane-bound organelles
Cell Wall (Peptidoglycan in bacteria)
Ribosomes (Protein + rRNA)
Plasma Membrane (Phospholipid bilayer)
Nucleoid (Circular DNA, No nucleus)
Flagella (Protein-based movement structure)
Eukaryotic Cells (Plants, Animals, Fungi, Protists)
Membrane-bound organelles
Larger & more complex
Cell Membrane, Cytoplasm, and cytoskeleton
Cell Membrane
Phospholipid Bilayer (Hydrophobic tails, Hydrophilic heads)
Proteins – Transport, signaling
Carbohydrates (Glycoproteins, Glycolipids) – Cell recognition
Cholesterol (in animals)
Cytoplasm & Cytoskeleton
Cytosol (Water, enzymes, dissolved molecules)
Cytoskeleton (Protein Filaments)
Microtubules (Tubulin) – Transport, spindle fibers
Microfilaments (Actin) – Shape, movement
Intermediate Filaments – Structural support
Nucleus, ER, Golgi, mitochondria, lysosomes, and vaculoes
Nucleus
Nuclear Envelope – Regulates transport
Chromatin – Genetic storage
Nucleolus (rRNA Synthesis) – Ribosome assembly
Endoplasmic Reticulum (ER)
Rough ER (Ribosomes attached, Protein synthesis & transport)
Smooth ER (Lipid synthesis, Detoxification, Calcium storage)
Golgi Apparatus
Modifies, sorts, packages proteins & lipids
Produces lysosomes
Mitochondria
Double membrane (Inner membrane forms cristae)
Own DNA & Ribosomes (Endosymbiotic Theory)
ATP production via Cellular Respiration
Lysosomes (Animal Cells)
Contain Hydrolytic Enzymes
Break down waste, foreign particles, old organelles
Vacuoles
Plants: Large central vacuole (Stores water, ions, nutrients, maintains pressure)
Animals: Small vesicles for storage & transport