The Biological Macromolecules 2022.ppt
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Sep 19, 2022
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About This Presentation
All about biological macromolecules
Slide Content
Biological
Macromolecules
Macromolecules
They’re Organic!!!
What’s an organic molecule??
Compounds made up of hydrocarbons
Carbon and Hydrogen atoms!!
Living/once living (YOU are Organic!)
(Not CO2. It’s a gas!!!!!)
Compounds made up of hydrocarbons
Carbon and Hydrogen atoms!!
Living/once living (YOU are Organic!)
(Not CO2. It’s a gas!!!!!)
There are four classes of biological
macromolecules we will be looking at:
Proteins
Lipids
Carbohydrates
Nucleic acids (This will be last)
First –Let’s
Concentrate
on these
three!
macromolecules we will be looking at:
Proteins
Lipids
Carbohydrates
Nucleic acids (This will be last)
First –Let’s
Concentrate
on these
three!
A very, very large
molecule!!
molecule!!
Biological
Macromolecule
All biological macro-molecule are
organic, meaning they all contain
hydrocarbons…Carbon atoms (with
attached Hydrogens!) Other elements
may include Oxygen, Nitrogen,
Phosphorus and Sulfur
Macromolecule
All biological macro-molecule are
organic, meaning they all contain
hydrocarbons…Carbon atoms (with
attached Hydrogens!) Other elements
may include Oxygen, Nitrogen,
Phosphorus and Sulfur
Macromolecules
We’re looking
at
We’re looking
at
“Mono” means one
SO… a polymer is
made up of many
monomers!!
SO… a polymer is
made up of many
monomers!!
Polymer Analogies
EXAMPLE of
POLYMER
MONOMER
Ladder ?
String of Pearls Necklace ?
EXAMPLE of
POLYMER
MONOMER
Ladder ?
String of Pearls Necklace ?
Answers
EXAMPLE of
POLYMER
MONOMER
Ladder Each Rung
Necklace Each Pearl
EXAMPLE of
POLYMER
MONOMER
Ladder Each Rung
Necklace Each Pearl
Can you think of a polymer??
What monomers make it up??
What monomers make it up??
ALL four can be found in food!!
Think about it!!
Think about it!!
Look at the label to the left.
3 of the 4 macromolecules
are labeled!!
1____________________
2____________________
3____________________
(0 grams in this product)
(13 grams in this product)
(9 grams in this product)
3 of the 4 macromolecules
are labeled!!
1____________________
2____________________
3____________________
(0 grams in this product)
(13 grams in this product)
(9 grams in this product)
On to Our First Biomolecule!!
Carbohydrates!!
Carbohydrates!!
Carbohydrates
C, H, O
C, H, O
SIMPLE CARBOHYDRATES
They are the main sourceof energy for the body !
Simple sugarsMonosaccharide
Glucose, for example (Yes it IS a monomer!!), is the main
product of photosynthesis!!
C
6H
12O
6 Atoms: C, H, O
They are the main sourceof energy for the body !
Simple sugarsMonosaccharide
Glucose, for example (Yes it IS a monomer!!), is the main
product of photosynthesis!!
C
6H
12O
6 Atoms: C, H, O
COMPLEX CARBOHYDRATES
Long-term storage for energy
Polysaccharides made up of glucose polymers
Below is a part of the polymer starch!!
Long-term storage for energy
Polysaccharides made up of glucose polymers
Below is a part of the polymer starch!!
Starch Continued
Found in: Grains (wheat, rice, corn, oats, barley) Tubers
such as potatoes are rich in starch.
Found in: Grains (wheat, rice, corn, oats, barley) Tubers
such as potatoes are rich in starch.
Cellulose
** ALSO a glucose
polymer
**Offers the plant
support
** Energy storage
** Makes up cell wall
** Food source for
seeds and plant bulbs
** ALSO a glucose
polymer
**Offers the plant
support
** Energy storage
** Makes up cell wall
** Food source for
seeds and plant bulbs
Glycogen in Animals
**A branched
polymer made up of
numerous glucose
monomers
**Long-term energy
storage found in the
liver
** Quickly broken
down into glucose
for immediate
energy
**A branched
polymer made up of
numerous glucose
monomers
**Long-term energy
storage found in the
liver
** Quickly broken
down into glucose
for immediate
energy
Complex Carbs and Energy
Starches, Cellulose and Glycogen are broken down by
proteins called enzymes (remember digestion in
lysosomes!!??.....similar concept!)
Broken down into their monomers Glucose
Glucose is further broken down during cellular
respiration in the mitochondria for energy
About 36 ATP molecules of energy per each glucose
molecule!!!
Starches, Cellulose and Glycogen are broken down by
proteins called enzymes (remember digestion in
lysosomes!!??.....similar concept!)
Broken down into their monomers Glucose
Glucose is further broken down during cellular
respiration in the mitochondria for energy
About 36 ATP molecules of energy per each glucose
molecule!!!
Lipids
Mostly C,H and some O
Mostly C,H and some O
STORED ENERGY Broken down for energy
They INSULATEthe body to help maintain normal
body temperature and they
CUSHIONthe internal organs for protection.
Include waxes, Oils
include steroids such as cholesterol and the sex
hormones estrogen and testosterone
Anabolic steroids build muscle
They waterproofsurfaces of animals, plants, and
fruits-these are waxes!
THINK: Waterproof, insulate, steroids, energy,
cushion…
They INSULATEthe body to help maintain normal
body temperature and they
CUSHIONthe internal organs for protection.
Include waxes, Oils
include steroids such as cholesterol and the sex
hormones estrogen and testosterone
Anabolic steroids build muscle
They waterproofsurfaces of animals, plants, and
fruits-these are waxes!
THINK: Waterproof, insulate, steroids, energy,
cushion…
Remember the cell membrane?
PhosphoLIPIDbilayer of the cell membrane? The
fatty acid tails are lipids!
It’s semi-permeable, allowing only certain
molecules to diffuse across the membrane to
enter or exit the cell.
PhosphoLIPIDbilayer of the cell membrane? The
fatty acid tails are lipids!
It’s semi-permeable, allowing only certain
molecules to diffuse across the membrane to
enter or exit the cell.
LIPIDS
FatMade up of fatty acid monomers –
Glycerides that have a Glycerol Backbone
(Circled) and a Fatty Acid Tail(s)
Mostly C, H with some O
Glycerides that have a Glycerol Backbone
(Circled) and a Fatty Acid Tail(s)
Mostly C, H with some O
Triglycerides
Glycerol Group with 3 Fatty Acid Chains
This is a triglyceride molecule
Glycerol Group with 3 Fatty Acid Chains
This is a triglyceride molecule
NOW ONTO PROTEINS
They are the major structural moleculesin living things for
growth and repair : muscles, ligaments, tendons, bones,
hair, skin, nails…IN FACT ALL CELL MEMBRANES have
protein in them
They make up antibodiesin the immune system
They make up enzymesfor helping chemical reactions
They makeup non-steriod hormoneswhich
THINK: Proteins= membranes, enzymes, antibodies, non-
steriod hormones, structural molecules, “MEANS”
They are the major structural moleculesin living things for
growth and repair : muscles, ligaments, tendons, bones,
hair, skin, nails…IN FACT ALL CELL MEMBRANES have
protein in them
They make up antibodiesin the immune system
They make up enzymesfor helping chemical reactions
They makeup non-steriod hormoneswhich
THINK: Proteins= membranes, enzymes, antibodies, non-
steriod hormones, structural molecules, “MEANS”
Proteins
Made up of Mostly C, H, O and
N (Some Sulfur)
Made up of Mostly C, H, O and
N (Some Sulfur)
Proteins
Proteins
Aside from the protein found in
animal sources…protein can also
be found in fruits, vegetables,
grains, and nuts. (it just does not have as many amino
acids)
Aside from the protein found in
animal sources…protein can also
be found in fruits, vegetables,
grains, and nuts. (it just does not have as many amino
acids)
Hair, Skin, and Nails
Microscope View of
Skin and Nails
This is skin This is a nail
Skin and Nails
This is skin This is a nail
Made up of Amino Acid Monomers!!!
**Remember protein synthesis???? Transcription and
translation?
**A peptide bond bonds amino acids together
**Creates a polypeptide
**Remember protein synthesis???? Transcription and
translation?
**A peptide bond bonds amino acids together
**Creates a polypeptide
The shapes of Proteins
Determines it’s Function
Amino
Acids !!!
Determines it’s Function
Amino
Acids !!!
Ribosomesare Proteins that
are Involved in Creating
Proteins!!
are Involved in Creating
Proteins!!
Insulin
Chemical signaler protein produced in the pancreas
Causes cellsin the liver, muscle, and fat tissue to take up
glucose from blood and convert it to glycogen that can be
stored in the liver and muscles
Diabetes is a condition when a person has high blood glucose (blood
sugar), either because insulin production is inadequate, or because
the body's cells do not respond properly to insulin, or both.
Chemical signaler protein produced in the pancreas
Causes cellsin the liver, muscle, and fat tissue to take up
glucose from blood and convert it to glycogen that can be
stored in the liver and muscles
Diabetes is a condition when a person has high blood glucose (blood
sugar), either because insulin production is inadequate, or because
the body's cells do not respond properly to insulin, or both.
Hemoglobin
A protein in red blood cells that carries oxygen
A protein in red blood cells that carries oxygen
**Antibodies are part of the immune system.
**When something enters the body that isn’t supposed to
be there, like certain bacteria, antibodies find the invader
and stick themselves onto it.
**White Blood cells destroy the invaders (hopefully)
**When something enters the body that isn’t supposed to
be there, like certain bacteria, antibodies find the invader
and stick themselves onto it.
**White Blood cells destroy the invaders (hopefully)
Enzymes
Speed up the rate of a chemical reaction (a catalyst) by
lowering the energy needed to begin the reaction (Below)
Re-usable
Molecule specific –like a lock and key
-Example: ONLY Lactase will break down lactose. It
will NEVER break down proteins
Speed up the rate of a chemical reaction (a catalyst) by
lowering the energy needed to begin the reaction (Below)
Re-usable
Molecule specific –like a lock and key
-Example: ONLY Lactase will break down lactose. It
will NEVER break down proteins
Enzymes Lock and Key
Model
Substrate
Product
s
Model
Substrate
Product
s
Enzymes
Folded specific to its function…like a lock and key model!
Lactase
breaks down
lactose
sugar
Pepsin
breaks
down
proteins
Amylase
breaks down
amylose
Folded specific to its function…like a lock and key model!
Lactase
breaks down
lactose
sugar
Pepsin
breaks
down
proteins
Amylase
breaks down
amylose
Active
Site
Specific Enzyme
Starch
***** Remember That Enzymes are
substrate-specific !!!!!
Simple useable
sugars (product)
Protei
n
Lipid
Which substrate can be reduced by the enzyme??
Site
Specific Enzyme
Starch
***** Remember That Enzymes are
substrate-specific !!!!!
Simple useable
sugars (product)
Protei
n
Lipid
Which substrate can be reduced by the enzyme??
Enzymes are affected by:
Rate of Reaction
pH Affects Enzyme Reactivity
1342 56789
pH
scal
This enzyme functions in an environment
that has a pH of about 4, which is acidic
pH Affects Enzyme Reactivity
1342 56789
pH
scal
This enzyme functions in an environment
that has a pH of about 4, which is acidic
The 4th type is
NUCLEIC ACIDS
The types of Nucleic Acids
DNA (DeoxyriboNucleicAcid)
RNA (RiboNucleic Acid)
NUCLEIC ACIDS
The types of Nucleic Acids
DNA (DeoxyriboNucleicAcid)
RNA (RiboNucleic Acid)
**Monomers are called Nucleotides
“DNA” is short for
DeoxyribonucleicAcid
**Your genetic makeup!!
DeoxyribonucleicAcid
**Your genetic makeup!!
“DNA” is short for
RibonucleicAcid
**Works with DNA to create
proteins
RibonucleicAcid
**Works with DNA to create
proteins
RNA DNA
Single-
Stranded
Nitrogen
bases
Adenine (A),
Cytosine (C),
Guanine (G),
Uracil (U)
Remember NO
Thymine (T)
Ribose sugar
Double-
Stranded
double helix
Nitrogen
bases
Adenine (A),
Cytosine (C),
Guanine (G),
Thymine (T)
Remember
NO Uracil (U)
Deoxy-ribose
sugar
Single-
Stranded
Nitrogen
bases
Adenine (A),
Cytosine (C),
Guanine (G),
Uracil (U)
Remember NO
Thymine (T)
Ribose sugar
Double-
Stranded
double helix
Nitrogen
bases
Adenine (A),
Cytosine (C),
Guanine (G),
Thymine (T)
Remember
NO Uracil (U)
Deoxy-ribose
sugar
Remember How DNA and RNA Molecules are Involved in Protein
Synthesis?? Transcription and Translation?
*DNA
*mRNA
*At ribosome
*tRNABrings in
Amino Acids
*Amino Acids form
the protein (a
polypeptide)
Synthesis?? Transcription and Translation?
*DNA
*mRNA
*At ribosome
*tRNABrings in
Amino Acids
*Amino Acids form
the protein (a
polypeptide)
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