Ch. 3: The Molecules of Cells
polysaccharide
Many sugars together Starch Thousands of glucose molecules joined together which must be broken down for energy
protein
Most common organic in cells C,H,O,,P Provide structure to living cells and have many other important functions (receptors, enzymes, antibodies, regulators, etc.) Can also be used for energy made out of amino acids (monomer)
enzymes
Provide structure to living cells and have many other important functions type of protein
cellulose
Provides structure for plant cell walls (fiber)
chitin
Provides structure in animals and fungi
quaternary level
is a protein consisting of more than one amino acid chain
denaturation
when you break something down
nucleotide
form the basic structural component fro DNA and RNA
organic compounds
- All contain carbon and usually hydrogen and oxygen - May also contain other elements - All living things are made up of mostly water and the organic compounds - Described using a structural formula which is a map of the atoms and the bonds in the molecule - Organic molecules include carbohydrates, lipids, proteins and nucleic acids - All organics contain long chains of carbon atoms with hydrogen, oxygen, and functional groups attached - Carbon needs 4 electrons so loves to covalently bond: 1. Carbohydrates 2. Lipids 3. Proteins 4. Nucleic Acids 5. Each organic is made up some type of MONOMER (building block) that bond together to form the POLYMER organic
Describe the processes of dehydration synthesis (condensation reaction) and hydrolysis
- Bonds are formed through the removal of water. - It is the chemical reation in which two molecules are joined covalently by the removal of -OH from one molecule and -H atom from the other molecule. - It is also known as condensation. - Most reactions involved joining monomers into polymers. - Bonds are broken through the addition of water. - It is the chemical reaction in which a molecule is split into smaller unites by the reaction with water's addition. - Most reactions inolve splitting polymers into monomers. - It is how we break down foods into smaller units that can be used for our cells.
amino acid
20 different amino acids differ by R group Most proteins are 100's to 1000's of amino acids Each cell has thousands of proteins Join together by PEPTIDE BONDS to form proteins: A molecule of water is removed from two glycine amino acids to form a peptide bond
peptide bond
A molecule of water is removed from two glycine amino acids to form a peptide bond
lipids
Also contain C, H, O Have many more bonds than carbs so carry more energy Takes longer to digest Functions concentrated energy storage Structure / messengers One fat molecule is made up of glycerol connected to 3 fatty acids (monomers)
List the four main organic polymers and their constituent monomers. Give examples of each and describe their structure and function.
Carbohydrates- Sugars; Provide energy (mono, di, poly, sacch.), Structure (cellulose, chitin) Lipids (fats)- Glycerol and 3 fatty acids; Concentrated energy, Structure, Messengers Proteins- Amino Acids; Lots!!, Energy, Structure, Enzymes, Antibodies, Hormones, Regulators Nucleic Acids- Nucleotides; Store/ carry genetic info
Describe the unique structure of carbon that determines its unique function.
Carbon is the primary component of macromolecules, including proteins, lipids, nucleic acids, and carbohydrates. Carbon's molecular structure allows it to bond in many different ways and with many different elements.
DNA
Deoxyribonucleic acid found in all living things
disaccharide
Double sugars Sucrose, lactose Must be broken down before used for fuel
Explain the relationship between monomers and polymers.
Each organic is made up some type of MONOMER (building block) that bond together to form the POLYMER (organic) when 2 or more monomers join together, a polymer forms
RNA
Ribonucleic Acid half of DNA
monosaccharides
Single simple sugar (5-6 carbons) Glucose, fructose, galactose Main fuel for cells
steroids/cholesterol
Steroids Cholesterol is part of the cell membrane
phospholipids
Structural lipids that make up part of the cell membrane
starch
Thousands of glucose molecules joined together which must be broken down for energy
hydrolysis
When organic compounds are broken down and energy is released the process needs water
dehydration reaction
a chemical reaction that involves the loss of a water molecule from the reacting molecule
alpha helix
a common secondary structure of proteins and is a righthand-coiled or spiral conformation
primary level
a sequence of a chain of amino acids
glycogen
a substance deposited in bodily tissues as a store for carbohydrates
monomer
building block
beta pleated sheet
consist of beta strands connected laterally by at least two or three backbone hydrogen bonds, forming a generally twisted, pleated sheet
unsaturated
double bonds for more movement liquid at room temp (plant oils) (fatty acids)
saturated
no double bonds solid at room temp (animal fats) (fatty acids)
tertiary level
occurs when certain attractions are present between alpha helixes and pleated sheets
secondary level
occurs when the sequence of amino acids are linked by hydrogen bonds
polymer
organic
polypeptide
protein
