Title: The Structure and Function of Macromolecules
1The Structure and Function of Macromolecules
2II. Classes of Organic Molecules
- What are the four classes of organic molecules?
- Carbohydrates
- Lipids
- Proteins
- Nucleic Acids
3A. Carbohydrates
- Sugars
- Carbo carbon, hydrate water carbohydrates
have the molecular formula (CH2O)n - Functions
- Store energy in chemical bonds
- Glucose is the most common monosaccharide
- Glucose is produced by photosynthetic autotrophs
41. Structure of Monosaccharides
- An OH group is attached to each carbon except
one, which is double bonded to an oxygen
(carbonyl).
5- Classified according to the size of their carbon
chains, varies from 3 to 7 carbons.
Triose 3 carbons
Pentose 5 carbons
Hexose 6 carbons
6- In aqueous solutions many monosaccharides form
rings
72. Structure of Disaccharides
- Double sugar that consists of 2 monosaccharides,
joined by a glycosidic linkage. - What reaction forms the glycosidic linkage?
- Condensation synthesis
8Examples of Disaccharides
- Lactose glucose galactose
Sucrose glucose fructose
93. Polysaccharides
- Structure Polymers of a few hundred or a few
thousand monosaccharides. - Functions energy storage molecules or for
structural support
10- Starch is a plant storage from of energy, easily
hydrolyzed to glucose units - Cellulose is a fiber-like structural material -
tough and insoluble - used in plant cell walls - Glycogen is a highly branched chain used by
animals to store energy in muscles and the liver. - Chitin is a polysaccharide used as a structural
material in arthropod exoskeleton and fungal cell
walls.
11B. Lipids
- Structure Greasy or oily nonpolar compounds
- Functions
- Energy storage
- membrane structure
- Protecting against desiccation (drying out)
- Insulating against cold
- Absorbing shocks
- Regulating cell activities by hormone actions
121. Structure of Fatty Acids
- Long chains of mostly carbon and hydrogen atoms
with a -COOH group at one end. - When they are part of lipids, the fatty acids
resemble long flexible tails.
13Saturated and Unsaturated Fats
- Unsaturated fats
- liquid at room temp
- one or more double bonds between carbons in the
fatty acids allows for kinks in the tails - most plant fats
- Saturated fats
- have only single C-C bonds in fatty acid tails
- solid at room temp
- most animal fats
14Saturated fatty acid
Unsaturated fatty acid
152. Structure of Triglycerides
- Glycerol 3 fatty acids
- 3 ester linkages are formed between a hydroxyl
group of the glycerol and a carboxyl group of the
fatty acid.
163. Phospholipids
- Structure Glycerol 2 fatty acids phosphate
group. - Function Main structural component of
membranes, where they arrange in bilayers.
17Phospholipids in Water
184. Waxes
- Function
- Lipids that serve as coatings for plant parts and
as animal coverings.
195. Steroids
- Structure Four carbon rings with no fatty acid
tails - Functions
- Component of animal cell membranes
- Modified to form sex hormones
20C. Proteins
- Structure
- Polypeptide chains
- Consist of peptide bonds between 20 possible
amino acid monomers - Have a 3 dimensional globular shape
211. Functions of Proteins
- Enzymes which accelerate specific chemical
reactions up to 10 billion times faster than they
would spontaneously occur. - Structural materials, including keratin (the
protein found in hair and nails) and collagen
(the protein found in connective tissue).
22- Specific binding, such as antibodies that bind
specifically to foreign substances to identify
them to the body's immune system. - Specific carriers, including membrane transport
proteins that move substances across cell
membranes, and blood proteins, such as
hemoglobin, that carry oxygen, iron, and other
substances through the body.
23- Contraction, such as actin and myosin fibers that
interact in muscle tissue. - Signaling, including hormones such as insulin
that regulate sugar levels in blood.
242. Structure of Amino Acid Monomers
- Consist of an asymetric carbon covalently bonded
to - Hydrogen
- Amino group
- Carboxyl (acid) group
- Variable R group specific to each amino acid
25Properties of Amino Acids
- Grouped by polarity
- Variable R groups (side chains) confer different
properties to each amino acid - polar, water soluble.
- non-polar, water insoluble
- positively charged
- negatively charged.
263. Primary Structure
- Unique sequence of amino acids in a protein
- Slight change in primary structure can alter
function - Determined by genes
- Condensation synthesis reactions form the peptide
bonds between amino acids
27(No Transcript)
284. Secondary Structure
- Repeated folding of proteins polypeptide
backbone - stabilized by H bonds between peptide linkages in
the proteins backbone - 2 types, alpha helix, beta pleated sheets
29(No Transcript)
305. Tertiary Structure
- Irregular contortions of a protein due to bonding
between R groups - Weak bonds
- H bonding between polar side chains
- ionic bonding between charged side chains
- hydrophobic and van der Waals interactions
- Strong bonds
- disulfide bridges form strong covalent linkages
31(No Transcript)
325. Quaternary Structure
- Results from interactions among 2 or more
polypeptides
33(No Transcript)
34Factors That Determine Protein Conformation
- Occurs during protein synthesis within cell
- Depends on physical conditions of environment
- pH, temperature, salinity, etc.
- Change in environment may lead to denaturation of
protein - Denatured protein is biologically inactive
- Can renature if primary structure is not lost
35D. Nucleic Acids
- Two kinds
- DNA
- double stranded
- can self replicate
- makes up genes which code for proteins
- is passed from one generation to another
- RNA
- single stranded
- functions in actual synthesis of proteins coded
for by DNA - is made from the DNA template molecule
36(No Transcript)
371. Nucleotide Monomer Structure
- Both DNA and RNA are composed of nucleotide
monomers. - Nucleotide 5 carbon sugar, phosphate, and
nitrogenous base
Deoxyribose in DNA
Ribose in RNA
38(No Transcript)
392. Building the Polymer
- Phosphate group of one nucleotide forms strong
covalent bond with the 3 carbon of the sugar of
the other nucleotide.
403. Functions of Nucleotides
- Monomers for Nucleic Acids
- Transfer chemical energy from one molecule to
another (e.g. ATP)
41- DNA
- Double helix
- 2 polynucleotide chains wound into the double
helix - Base pairing between chains with H bonds
- A - T
- C - G
42Summary of the Organic Molecules