Ch6.4 - Building Blocks of Life
reginakorrnell
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Dec 19, 2014
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About This Presentation
Grade 9 Biology: Building Blocks of Life. A introduction to the major macromolecules of the cell. Students are taught polymers, monomers, and the elements typically found in each. Students should be able to identify the basic chemical structure of proteins, lipids, carbohydrate, and nucleic acids an...
Slide Content
The Building Blocks of Life
Chapter 6 Lesson 4
p.166-171
Chapter 6 Lesson 4
p.166-171
Vocabulary
•Macromolecule
•Polymer
•Carbohydrate
•Lipid
•Protein
•Amino acid
•Nucleic Acid
•Nucleotide
•Macromolecule
•Polymer
•Carbohydrate
•Lipid
•Protein
•Amino acid
•Nucleic Acid
•Nucleotide
Important Greek terms to make life
easier
•Poly- = many
•Mono- = one
•Di- = two
•Meros- = part
easier
•Poly- = many
•Mono- = one
•Di- = two
•Meros- = part
Why study Carbon?
•All of life is built on carbon
•Life on Earth is “carbon-based”
•Cells
–~72% H
2
O
–~25% carbon compounds
•carbohydrates
•lipids
•proteins
•nucleic acids
–~3% salts
•Na, Cl, K…
•All of life is built on carbon
•Life on Earth is “carbon-based”
•Cells
–~72% H
2
O
–~25% carbon compounds
•carbohydrates
•lipids
•proteins
•nucleic acids
–~3% salts
•Na, Cl, K…
Each carbon atom can make fourEach carbon atom can make four
covalent bonds with other types of covalent bonds with other types of
atoms or additional carbons.atoms or additional carbons.
Question: How many Question: How many
electrons does carbon need electrons does carbon need
to fill its outer energy level? to fill its outer energy level?
Answer: FourAnswer: Four
covalent bonds with other types of covalent bonds with other types of
atoms or additional carbons.atoms or additional carbons.
Question: How many Question: How many
electrons does carbon need electrons does carbon need
to fill its outer energy level? to fill its outer energy level?
Answer: FourAnswer: Four
Chemistry of Life
•Organic chemistry is the study of organic
compounds, or carbon compounds
•Organic chemistry is the study of organic
compounds, or carbon compounds
Chemistry of Life
•Carbon occurs so often in organic
chemistry we don’t even need to put the
atomic symbol.
chemistry we don’t even need to put the
atomic symbol.
MACROMOLECULES OF LIFE
•Found in all living things
•Building blocks of all cells
•There are 4
1.Carbohydrates C, H, & O
2.Lipids C, H, & O
3.Proteins C, H, O, N, & S
4.Nucleic Acids C, H, O, N, & P
•Found in all living things
•Building blocks of all cells
•There are 4
1.Carbohydrates C, H, & O
2.Lipids C, H, & O
3.Proteins C, H, O, N, & S
4.Nucleic Acids C, H, O, N, & P
Macromolecules
•Large molecules that are formed by joining
smaller organic molecules together.
•Large molecules that are formed by joining
smaller organic molecules together.
Macromolecules
Monomers & Polymers
•Macromolecules are actually made up of even
smaller subunits. Each subunit of a
macromolecule is called a monomer.
•The macromolecules themselves are called
polymers, because they are made up of many
of these subunits.
Monomer: one basic unit or subunit
Polymer: a chain of many basic units
•Macromolecules are actually made up of even
smaller subunits. Each subunit of a
macromolecule is called a monomer.
•The macromolecules themselves are called
polymers, because they are made up of many
of these subunits.
Monomer: one basic unit or subunit
Polymer: a chain of many basic units
Biological
Macromolecules
Carbohydrates Lipids Proteins Nucleic Acids
Macromolecules
Carbohydrates Lipids Proteins Nucleic Acids
Carbohydrates
•(CH2O)n or C1:H2:O1 ratio
•n = number of CH2O units in a chain
Carbohydrates
Monosaccharide Disaccharide Polysaccharide
•(CH2O)n or C1:H2:O1 ratio
•n = number of CH2O units in a chain
Carbohydrates
Monosaccharide Disaccharide Polysaccharide
Monosaccharide
•(CH2O)3-7
•Simple sugars
•Function: Energy source for organisms
–Example: glucose (C6H12O6)
•(CH2O)3-7
•Simple sugars
•Function: Energy source for organisms
–Example: glucose (C6H12O6)
Disaccharides
•2 monosaccharide units linked together
•2 monosaccharide units linked together
Polysaccharides
•Long chains of monosaccharides
•Long chains of monosaccharides
Lipids
•Mostly made up of carbon and hydrogen
•Primary Function: energy storage
•Include oils, fats, waxes, and steroids
•Mostly made up of carbon and hydrogen
•Primary Function: energy storage
•Include oils, fats, waxes, and steroids
Triglycerides
•Oils = if liquid at room temperature
•Fats = if solid at room temperature
•Oils = if liquid at room temperature
•Fats = if solid at room temperature
Triglycerides
•Structure:
–3 Fatty Acids + Glycerol
•Structure:
–3 Fatty Acids + Glycerol
•If the fatty acid tail only has single bonds
between the carbon atoms, it is a
saturated fat.
–“Saturated” mean filled to maximum
capacity.
between the carbon atoms, it is a
saturated fat.
–“Saturated” mean filled to maximum
capacity.
•If the fatty acid tail has one or more
double bonds between the carbon atoms,
it is an unsaturated fat.
–Because the tail could make room,
accommodate, at least one more
hydrogen.
double bonds between the carbon atoms,
it is an unsaturated fat.
–Because the tail could make room,
accommodate, at least one more
hydrogen.
•If the fatty acid tail has more than one
double bond, you can call it a
polyunsaturated fat.
double bond, you can call it a
polyunsaturated fat.
Draw
Phospholipids
Phospholipids
•Special lipids that make up cell
membranes.
•Like most lipids they are hydrophobic
–Repels water
–This makes for great barriers in the watery
environment of our cells
•Special lipids that make up cell
membranes.
•Like most lipids they are hydrophobic
–Repels water
–This makes for great barriers in the watery
environment of our cells
Other Lipids
•Waxes
•Steroids
–Cholesterol – not all bad
–Hormones – estrogen and testosterone
•Waxes
•Steroids
–Cholesterol – not all bad
–Hormones – estrogen and testosterone
PROTEINS
•Monomer: amino acids
•Amino acids are small
compounds that are made of
carbon, nitrogen, oxygen,
hydrogen, and sometimes
sulfur.
•Function: enzymes, transport,
and cell structure
•Monomer: amino acids
•Amino acids are small
compounds that are made of
carbon, nitrogen, oxygen,
hydrogen, and sometimes
sulfur.
•Function: enzymes, transport,
and cell structure
Amino Acids
•Differ by R- unit or
variable group
•There are 20 different
variable groups
•So, there are 20
different amino acids
•Differ by R- unit or
variable group
•There are 20 different
variable groups
•So, there are 20
different amino acids
•Bonded by peptide bonds.
•These form between one amino group
and one carboxyl group
•These form between one amino group
and one carboxyl group
Protein structure
•Proteins, amino acid chains, can be any length
and any combination.
•They have four levels of structure.
•Proteins, amino acid chains, can be any length
and any combination.
•They have four levels of structure.
Primary (1°)
•Number and order of
amino acids in a chain
•Number and order of
amino acids in a chain
Secondary (2°)
•Hydrogen bonds
between different
amino acids cause
the chain to fold
•They can form
shapes like a helix,
pleated sheet, or
fold
•Hydrogen bonds
between different
amino acids cause
the chain to fold
•They can form
shapes like a helix,
pleated sheet, or
fold
Tertiary Structure (3°)
•The full structure of the protein with can
include many 2° structures.
•And they look really cool!
•The full structure of the protein with can
include many 2° structures.
•And they look really cool!
Quaternary Structure (4°)
•Not all proteins
have a 4° structure.
•The combination of
proteins that work
together as one.
•Not all proteins
have a 4° structure.
•The combination of
proteins that work
together as one.
Protein Function
•Proteins are ~15% of your total body mass
•Involved in almost every function:
–Muscles, skin, hair
–Cellular communication
–Enzymes
–Control cell growth
–Protection (immunity)
–Storage
•Our cells contain over 10,000 different proteins
•Proteins are ~15% of your total body mass
•Involved in almost every function:
–Muscles, skin, hair
–Cellular communication
–Enzymes
–Control cell growth
–Protection (immunity)
–Storage
•Our cells contain over 10,000 different proteins
Nucleic Acids
•Function: store and transmit genetic
information
•Monomer: nucleotides
–Nucleotides are composed of C, N, O, P, H
•There are 5 major nucleotides
–The book says 6, because it includes ATP
(wrong)
•Function: store and transmit genetic
information
•Monomer: nucleotides
–Nucleotides are composed of C, N, O, P, H
•There are 5 major nucleotides
–The book says 6, because it includes ATP
(wrong)
Nucleotide Structure
•The sugar of one nucleotide bonds to the
phosphate of another nucleotide
•The nitrogenous base sticks out to form
hydrogen bonds that hold the double helix
together.
phosphate of another nucleotide
•The nitrogenous base sticks out to form
hydrogen bonds that hold the double helix
together.
Types of nucleic acids
Adenosine Triphosphate (ATP)
•A modified nucleotide
•3 phosphate groups
•A modified nucleotide
•3 phosphate groups
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