Carbohydrates , lipids, and proteins
Download
Report
Transcript Carbohydrates , lipids, and proteins
Carbohydrates, lipids, and
proteins
IB Topic 3.2
Pages 56-61
Introduction
Living things are composed of an array of molecules
We need to classify them
Certain qualities
The more common biochemically important molecules
are:
Molecule (polymer)
Carbohydrates
Lipids
Proteins (polypeptides)
Nucleic acids
Subcomponents
(monomer)
Monosaccharides
Glycerol & fatty acids
Amino acids
Nucleotides
Common biochemicals & their structure
Classified as organic or inorganic
All organic molecules contain the element
carbon
However, not all carbon-containing
molecules are organic
Example = carbon dioxide (not organic)
Carbohydrates, lipids, proteins ARE organic
Some of the most important categories …
Category
Subcategory
Example molecule
Carbohydrates
Monosaccharides
Glucose, galactose,
fructose
Disaccharides
Maltose, lactose,
sucrose
Polysaccharides
Starch, glycogen,
cellulose
Proteins
X
Enzymes, antibodies
Lipids
X
Triglycerides,
phospholipids
Nucleic Acids
X
DNA, RNA
You should learn to recognize the
structures of common molecules
BUT you do not need to draw them (yea!)
Wait till organic chemistry …
Open your book to page 57
Look at figures 3.2, 3.3, 3.4, and 3.5
Answer question 4
Carbohydrates
Different “sizes”
Monosaccharides, disaccharides,
polysaccharides
All serve many functions in living
organisms
Short term energy
Because they carbohydrates are soluble
Contain only three elements: C, H, O
Hydrogen and oxygen in a 2:1 ratio
Monosaccharide – simple sugar
Relatively small; taste sweet and soluble
in water
Examples:
Glucose: made by green leaves using light
energy, our bodies transport it in our blood,
respiration (chemical fuel), building block for
larger molecules
Galactose
Fructose (found in fruits – makes them sweet)
Disaccharides
Made of 2 monosaccharide molecules
Examples:
Sucrose (glucose + fructose)
Maltose (glucose + glucose)
Lactose (galactose + glucose)
Polysaccharides
Built from many monosaccharide
molecules connected by glycosidic links
Examples
Starch (polymer of glucose)
Glycogen (polymer of glucose)
Stores glucose in liver and muscles
Cellulose (polymer of glucose)
Component of cell walls
Lipids
Lipids occur in living things as animal fats,
plant oils, phospholipids of cell
membranes, and steroids
Contain C, O, and H (like carbs), but
proportion of oxygen is much less
Insoluble in water; hydrophobic
Long term energy storage
Can be dissolved in organic solvents (alcohol)
Lipids
Fats and oils are compounds called triglycerides
Formed when water is removed between fatty acids and
glycerol
Long hydrocarbon tails
The Role of Lipids
Energy storage
Lipids store about twice as much chemical
energy as carbohydrates
If you eat more food than you burn, your
body will store much of the excess as fat
in adipose tissue
Other important roles of lipids
1. Energy storage
Less oxygen atoms/more concentrated source
2. Metabolic water source
3. Thermal insulation and buoyancy
4. Water proofing of hair and feathers
5. Electrical insulation
Myelin sheath
Homework
Due Tuesday
#4-7 page 61
Bell Ringer:
Take out your homework (#4-7 page 61)
Take out your PowerPoint questions from
yesterday
Homework for tonight: amino acids
worksheet (will be passed out at the end of
class) & bring your book the rest of the
week.
Topic 3.1 and 3.2 quiz Thursday
Answers to #4-7 page 61
4) a. glucose + fructose sucrose + water
4) b. condensation reaction
5) a. glycerol + 3 fatty acids triglyceride + 3
water
5) b. condensation enzyme
5) c. product
5) d. three (b/c three condensation reactions
occurred)
Answers to #4-7 page 61
6) a. amino acids
6) b. glycerol and fatty acids
6) c. nucleotides
7) a. nucleotides
7) b. amino acids
7) c. glucose (a monosaccharide)
Amino Acids, peptides, and proteins
Contain nitrogen, sulphur, hydrogen, carbon and
oxygen
Amino group: NH2
Carboxyl group: COOH
Amino acids peptides and proteins
Polypeptide and protein are used interchangeably
Once the chain is constructed, it takes a specific
shape – shape matters with proteins
Shape function
Amino acids
Proteins are made from 20 amino acids
Also attached is an R group
Differ different chemical characteristics
Most macromolecules are polymers
Carbohydrates, lipids, and proteins are
chainlike molecules called polymers
Polymer is a long molecule consisting of many
similar or identical building blocks linked by
covalent bonds
Monomers
Condensation and hydrolysis
Many organisms rely on food to gain the
building block molecules
When animals eat, food is digested (or
hydrolyzed) into the building blocks
Going from polymers to monomers
These building blocks are transported to
body cells and bonded together to form
larger molecules
What happens when you eat?
Foods are chemically digested in your
alimentary canal
Hydrolyzing enzymes are required
Each reaction is called a hydrolysis and
requires a molecule of water as a reactant
Think about the word hydrolysis:
Hydro = water
Lyse = split
Examples of hydrolysis
Hydrolysis of a
disaccharide in two …
Hydrolysis of a
triglyceride lipid to …
Hydrolysis of a
polypeptide to …
Condensation reactions
Are the reverse of hydrolysis
Condensation reactions occur to re-form
larger biochemical molecules
Water molecules are products rather than
reactants
Also requires a different type of enzyme
Condensation Reaction (or Dehydration
Synthesis)
The process of
connecting monomers to
create a polymer
This process requires
energy and is aided by
enzymes
Removes water
molecules
One monomer provides a
hydroxyl group and the
other provides a hydrogen
Wrap Up
All organic molecules contain the element _________
Carbohydrates exist as _______, _______, & _______
The smallest carbohydrates are ___________
The subcomponents of other biochemically important
organic molecules are:
_____________, which make up proteins
_____________, which make up lipids (fats and oils)
_____________, which make up nucleic acids (DNA and RNA)
Subcomponents are bonded together by ___________
Larger molecules are split by ____________
Although carbohydrates and lipids are used for energy
storage …