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Molecules of Life. Chapter 2. Chemistry of Life. Living things are made of 5 main atoms Carbon , Hydrogen Oxygen, Nitrogen, Phosphorus. Organic Molecules. Organic molecules have carbon Carbon is able to form strong covalent bonds. Inorganic molecules. - PowerPoint PPT Presentation
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Molecules of Life
Chapter 2
Chemistry of Life•Living things are made of 5 main atoms–Carbon, Hydrogen Oxygen, Nitrogen, Phosphorus
Organic MoleculesOrganic molecules have carbon
Carbon is able to form strong covalent bonds
Inorganic moleculesInorganic molecules USUALLY do not have carbon. i.e. H2O, NaCl
Carbon dioxide (CO2) is the exception. It has carbon but is inorganic
Macromolecules•“Large” molecule•Formed by monomers (small molecules) bonding together
•Large molecule with many monomers is a polymer
There are four main macromolecules in living things
•Carbohydrates, lipids, nucleic acids, proteins
CarbohydratesSugars and starchesMade of 3 atoms: Carbon, Hydrogen and Oxygen
Most carbs. have a C1:H2:O1 ratio (1:2:1)
Carbs.Monosaccharides are the monomer.
Simple SugarsGlucose (C6H12O6)
Carbs.Monosaccharides bond together to form Polysaccharides
Carbos. have two main functions.
1. Usable (short-term) Energy storage
2. Structure and support
Cellular EnergySugars (monosaccharides) are usable energy for cells. (glucose, fructose, sucrose)
Glucose most common sugar in cells
Energy StoragePolysaccharides provide short term energy storage.
Plants use starch (in roots and stems)
Animals store glycogen in the liver.
Structural SupportPolysaccharides can also support both plants and animals.
Cellulose is in the cell wall of plant cells to make them stronger. (indigestible)
Structural SupportChitin is a polysaccharide used in the exoskeletons of insects and crabs
LIPIDS• Fats, oils, and waxes
LipidsUses:1. Long term energy
storage. Six times more energy storage than carbohydrates. (fats, oils, waxes)
LipidsUses:2. Cellular Membranes-
phospholipids3. Chemical Messengers-
steroids and cholesterol
Basic Fatty Acid Chain
C C C C HH H H H
HHHHCO
OH
Long carbon chain (16-24C)
C C C C HH H H H
HHHH
Fat Types•Fatty acids can be saturated, unsaturated, or polyunsaturated.
Saturated Fats•Saturated fats have only single bonds between the carbons on the long fatty acid chains.
Saturated Fats
C C C CH H H H
HHHHCO
OC C
H H
HHC C
H H
HH
Saturated Fats•Found in animals•Solid at room temperature
•Taste good but bad for you (heart disease)
Unsaturated Fats•Unsaturated fats have one double bond between two of the carbons on the long carbon chain of the fatty acid.
Unsaturated Fats
C C C CH H H
HHHCO
OC C
H
HHC
HH
Polyunsaturated Fats•Polyunsaturated fats have two or more double bonds between the carbons on the long carbon chain of the fatty acid.
Polyunsaturated Fats
C C C CH H H
HHHCO
OC C
H
HHC
H
Unsat. & Polyunsat Fats•Found in plants•Called oils•Liquid at room temperature
•Better for you, but don’t taste as good.
Phospholipids•Phospholipids are special lipids that make up cellular membranes.
•Phospholipids are made of two fatty acid chains attached to a phosphate group.
PhospholipidsPhosphate
Head
Fatty AcidChains
Phospholipids•Phospholipids are found in a bilayer (two layers).
•The long carbon chains face the middle and the phosphate groups face the outsides.
Phospholipids
NUCLEIC ACIDS
Nucleic Acids• Nucleic Acids have two
main functions-1. Genetic material for all
life forms (DNA, RNA)2. Energy for all life forms
(ATP)
Nucleic AcidsThe monomer for a
nucleic acid is a nucleotide.
Nucleic AcidsNucleotides made of
three parts1. phosphate group2. 5 carbon (pentose)
sugar3. Nitrogenous Base
PROTEINS
Proteins•When you look at someone, the main things you see are proteins.
•Proteins do many jobs for living things
Protein Functions•Structure- found in hair, horns and spider’s silk.
•Transport- moving materials
•Defense- antibodies•Enzymes- helping chemical reactions
Amino Acids•Proteins are made of smaller molecules called amino acids.
C CHH
H RN
O
O H
Amino Acids
C CHH
H RN
O
O HAmine Group (NH2)
Carboxyl Group (COOH)
Amino Acids•A protein is made of up to a few hundred amino acids bonded together.
•The bonds between amino acids are Peptide bonds
C CHH
H RN
O
O HC CHH
H RN
O
O H
H2O
C CHH
H RN
OC CH
H RN
O
O HPeptide Bond
Amino Acids Peptide Bond
•The long chain of amino acids are called polypeptide chains
Amino Acids•There are 20 different amino acids.
•The differences are changes in the R group on the amino acid.
ACIDS & BASES
•Acid: any solution (something mixed with water) that causes there to be a greater amount of H+ than –OH.
H+ -OH
C. Acids and Bases
–This is significant because the H+ ion is the most reactive ion known.
–H+ ions will attack the chemical bonds in many compounds
C. Acids and Bases
C. Acids and Bases (cont)• Acid Examples:
HCl H+ + Cl-
H2SO4 2H+ + (SO4)-
HCl
H+
H+
H+
H+
H+
H+
H+
H+
Cl-
Cl-
Cl-
Cl-
Cl-Cl-
Cl-
Cl-
•Some acids are formed when -OH ions are removed from the solution.
•Base: A solution when there is a greater amount of –OH than H+.
H+ < -OH
C. Acids and Bases (cont)
–This is significant because the OH - ion is also highly reactive.
C. Acids and Bases (cont)
NaOH
Na+OH-
Na+
Na+
Na+Na+
OH-
OH-OH-
OH-
OH-
Na+
Na+
• Base Examples:
NaOH Na+ + OH-
Mg(OH)2 Mg+2 + 2OH-
C. Acids and Bases (cont)
•Acids and bases are placed on a scale to show how strong they are.
•The scale is called the pH scale
C. Acids and Bases (cont)
•Acids are ranked from 0 to 6.9
•Strong acids are a 1 (Many more H+ than -OH)
•Weak acids are 6.9 (almost equal H+ to –OH)
D. pH scale
•Bases are ranked from 7.1 to 14
•Strong Bases are a 14 (Many more –OH than H+)
•Water is ranked 7 (Equal amounts of H+ to –OH)
D. pH scale
• Example:
H+ + OH- H2O
C. Acids and Bases (cont)
H+ OH-
H+
H+H+
H+
OH-
OH-
OH-
OH-
OH-
H+
H20H20 H20
H20 H20
H20
H+ OH-
Section 2.4
Enzymes•One of the most critical types of proteins are enzymes.
•Enzymes help chemical reactions happen inside the body.
Enzymes•Catalase, Lactase, Amylase, ATP Synthase are all examples of human enzymes
Enzymes•An enzyme is called a biological catalyst.
•Catalysts are chemicals that helps to lower the amount of energy needed for a chemical reaction to start.
Enzymes• If a chemical reaction is to happen, energy is required start the reaction (striking a match)
•Called Activation Energy
Activation Energy GraphActivation Energy
Energy Available
Enzymes•An enzyme or catalyst does the job of lowering the activation energy needed to start chemical reactions.
Activation Energy GraphActivation Energy with enzyme
Energy Available
Enzymes•An enzyme is not changed during the reaction. This allows the enzyme to be reused over and over.
Enzymes•Enzymes are used to break molecules apart
•Enzymes synthesize (build) new molecules from smaller pieces
Synthesis Reaction
Degradation Reaction
Enzymes•Enzymes are also specific in nature. They will only work with a single molecule or chemical. (lock and key)
Active Site•The molecule or chemical the enzyme attaches to is called the Substrate.
•The place where the substrate attaches to the enzyme is the Active Site
Enzyme Environment•Enzymes require specific environments to do their job.
Enzyme Environment• Two major factors
affect enzyme activity.1. Temperature2. pH (acidic or basic)
Enzyme Environment• The environment can
cause an enzyme to change its shape and make it ineffective
• If an enzyme has changed its shape, it has become Denatured
• If an enzyme has become denatured, it’s active site will also change and will not be able to attach to the substrate.
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