biochemistry basics
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About This Presentation
food biochemistry
Slide Content
Lecture Notes 3:
Biochemistry
Biology ABiology A
Eaton Rapids High SchoolEaton Rapids High School
K.CoppinsK.Coppins
Biochemistry
Biology ABiology A
Eaton Rapids High SchoolEaton Rapids High School
K.CoppinsK.Coppins
I. Basics of Chemistry
A. The AtomA. The Atom
1. ______________________________1. ______________________________
2. Made of a __________________ 2. Made of a __________________
surrounded by a cloud of negative surrounded by a cloud of negative
particles called ____________.particles called ____________.
3. All elements are listed on the 3. All elements are listed on the
_____________._____________.Periodic TablePeriodic Table
positive nucleuspositive nucleus
electronselectrons
Smallest unit of any elementSmallest unit of any element
A. The AtomA. The Atom
1. ______________________________1. ______________________________
2. Made of a __________________ 2. Made of a __________________
surrounded by a cloud of negative surrounded by a cloud of negative
particles called ____________.particles called ____________.
3. All elements are listed on the 3. All elements are listed on the
_____________._____________.Periodic TablePeriodic Table
positive nucleuspositive nucleus
electronselectrons
Smallest unit of any elementSmallest unit of any element
I. Basics of Chemistry
A. The AtomA. The Atom
4. Elements in the body:4. Elements in the body:
Oxygen (65%)Oxygen (65%)
Carbon (18%)Carbon (18%)
Hydrogen (10%)Hydrogen (10%)
Nitrogen (3%)Nitrogen (3%)
Calcium (1.5%)Calcium (1.5%)
Phosphorus (1.0%)Phosphorus (1.0%)
Potassium (0.35%)Potassium (0.35%)
Sulfur (0.25%)Sulfur (0.25%)
Sodium (0.15%)Sodium (0.15%)
Magnesium (0.05%)Magnesium (0.05%)
Copper, Zinc, Selenium, Copper, Zinc, Selenium,
Molybdenum, Fluorine, Molybdenum, Fluorine,
Chlorine, Iodine, Chlorine, Iodine,
Manganese, Cobalt, Iron Manganese, Cobalt, Iron
(0.70%)(0.70%)
Lithium, Strontium, Lithium, Strontium,
Aluminum, Silicon, Lead, Aluminum, Silicon, Lead,
Vanadium, Arsenic, Vanadium, Arsenic,
Bromine (trace amounts)Bromine (trace amounts)
Reference: H. A. Harper, V. W. Reference: H. A. Harper, V. W.
Rodwell, P. A. Mayes, Review Rodwell, P. A. Mayes, Review
of Physiological Chemistry, of Physiological Chemistry,
16th ed., Lange Medical 16th ed., Lange Medical
Publications, Los Altos, Publications, Los Altos,
California 1977.California 1977.
A. The AtomA. The Atom
4. Elements in the body:4. Elements in the body:
Oxygen (65%)Oxygen (65%)
Carbon (18%)Carbon (18%)
Hydrogen (10%)Hydrogen (10%)
Nitrogen (3%)Nitrogen (3%)
Calcium (1.5%)Calcium (1.5%)
Phosphorus (1.0%)Phosphorus (1.0%)
Potassium (0.35%)Potassium (0.35%)
Sulfur (0.25%)Sulfur (0.25%)
Sodium (0.15%)Sodium (0.15%)
Magnesium (0.05%)Magnesium (0.05%)
Copper, Zinc, Selenium, Copper, Zinc, Selenium,
Molybdenum, Fluorine, Molybdenum, Fluorine,
Chlorine, Iodine, Chlorine, Iodine,
Manganese, Cobalt, Iron Manganese, Cobalt, Iron
(0.70%)(0.70%)
Lithium, Strontium, Lithium, Strontium,
Aluminum, Silicon, Lead, Aluminum, Silicon, Lead,
Vanadium, Arsenic, Vanadium, Arsenic,
Bromine (trace amounts)Bromine (trace amounts)
Reference: H. A. Harper, V. W. Reference: H. A. Harper, V. W.
Rodwell, P. A. Mayes, Review Rodwell, P. A. Mayes, Review
of Physiological Chemistry, of Physiological Chemistry,
16th ed., Lange Medical 16th ed., Lange Medical
Publications, Los Altos, Publications, Los Altos,
California 1977.California 1977.
I. Basics of Chemistry
B. MoleculesB. Molecules
1. When two or more atoms join 1. When two or more atoms join
together, they form a ___________.together, they form a ___________.
2. These are called _______________, 2. These are called _______________,
and are based on interactions between and are based on interactions between
the _________.the _________.
3. If a bond joins different elements, the 3. If a bond joins different elements, the
new substance is a __________.new substance is a __________.
moleculemolecule
chemical chemical
bondsbonds
electronelectron
ss
compoundcompound
B. MoleculesB. Molecules
1. When two or more atoms join 1. When two or more atoms join
together, they form a ___________.together, they form a ___________.
2. These are called _______________, 2. These are called _______________,
and are based on interactions between and are based on interactions between
the _________.the _________.
3. If a bond joins different elements, the 3. If a bond joins different elements, the
new substance is a __________.new substance is a __________.
moleculemolecule
chemical chemical
bondsbonds
electronelectron
ss
compoundcompound
I. Basics of Chemistry
C. Types of BondsC. Types of Bonds
1. _____________1. _____________
a. Electrons move from one atom to a. Electrons move from one atom to
the other.the other.
b. Atoms become positively or b. Atoms become positively or
negatively charged; called ____.negatively charged; called ____.
c. Charges attract or repel.c. Charges attract or repel.
d. Good for __________________.d. Good for __________________.
Ionic bondsIonic bonds
ionsions
conducting electricityconducting electricity
C. Types of BondsC. Types of Bonds
1. _____________1. _____________
a. Electrons move from one atom to a. Electrons move from one atom to
the other.the other.
b. Atoms become positively or b. Atoms become positively or
negatively charged; called ____.negatively charged; called ____.
c. Charges attract or repel.c. Charges attract or repel.
d. Good for __________________.d. Good for __________________.
Ionic bondsIonic bonds
ionsions
conducting electricityconducting electricity
I. Basics of Chemistry
C. Types of BondsC. Types of Bonds
2. _______________2. _______________
a. Electrons are shared between two a. Electrons are shared between two
atoms.atoms.
b. Atoms must remain togetherb. Atoms must remain together
c. Bonds are flexiblec. Bonds are flexible
d. Good for ________________.d. Good for ________________.
Covalent bondsCovalent bonds
large structureslarge structures
C. Types of BondsC. Types of Bonds
2. _______________2. _______________
a. Electrons are shared between two a. Electrons are shared between two
atoms.atoms.
b. Atoms must remain togetherb. Atoms must remain together
c. Bonds are flexiblec. Bonds are flexible
d. Good for ________________.d. Good for ________________.
Covalent bondsCovalent bonds
large structureslarge structures
I. Basics of Chemistry
C. Types of BondsC. Types of Bonds
3. _______________3. _______________
a. Hydrogen holds electrons weaklya. Hydrogen holds electrons weakly
b. Has a slightly positive charge, b. Has a slightly positive charge,
attracted to anything negative.attracted to anything negative.
c. Creates weak bonds that help hold c. Creates weak bonds that help hold
structures but can be broken easily.structures but can be broken easily.
d. Examples: _________________d. Examples: _________________
Hydrogen bondsHydrogen bonds
DNA, hair, waterDNA, hair, water
C. Types of BondsC. Types of Bonds
3. _______________3. _______________
a. Hydrogen holds electrons weaklya. Hydrogen holds electrons weakly
b. Has a slightly positive charge, b. Has a slightly positive charge,
attracted to anything negative.attracted to anything negative.
c. Creates weak bonds that help hold c. Creates weak bonds that help hold
structures but can be broken easily.structures but can be broken easily.
d. Examples: _________________d. Examples: _________________
Hydrogen bondsHydrogen bonds
DNA, hair, waterDNA, hair, water
I. Basics of Chemistry
D. Molecules and EnergyD. Molecules and Energy
1. Energy is stored in the bonds 1. Energy is stored in the bonds
between atoms. Energy is required to between atoms. Energy is required to
______________ bonds.______________ bonds.
2. The amount of energy varies with the 2. The amount of energy varies with the
type of bond. Some bonds (hydrogen) type of bond. Some bonds (hydrogen)
are easily broken while others (triple are easily broken while others (triple
covalent) are very hard.covalent) are very hard.
make or break
D. Molecules and EnergyD. Molecules and Energy
1. Energy is stored in the bonds 1. Energy is stored in the bonds
between atoms. Energy is required to between atoms. Energy is required to
______________ bonds.______________ bonds.
2. The amount of energy varies with the 2. The amount of energy varies with the
type of bond. Some bonds (hydrogen) type of bond. Some bonds (hydrogen)
are easily broken while others (triple are easily broken while others (triple
covalent) are very hard.covalent) are very hard.
make or break
II. Water Chemistry
A. ________ is the most abundant A. ________ is the most abundant
chemical in the body.chemical in the body.
B. Water has many characteristics that B. Water has many characteristics that
make it vital to our bodies.make it vital to our bodies.
1. _____—water is a very small 1. _____—water is a very small
molecule, so it moves fast and can molecule, so it moves fast and can
squeeze into tiny crevasses between squeeze into tiny crevasses between
other molecules.other molecules.
Water
Size
A. ________ is the most abundant A. ________ is the most abundant
chemical in the body.chemical in the body.
B. Water has many characteristics that B. Water has many characteristics that
make it vital to our bodies.make it vital to our bodies.
1. _____—water is a very small 1. _____—water is a very small
molecule, so it moves fast and can molecule, so it moves fast and can
squeeze into tiny crevasses between squeeze into tiny crevasses between
other molecules.other molecules.
Water
Size
II. Water Chemistry
B. Water has many B. Water has many
characteristics that make it characteristics that make it
vital to our bodies.vital to our bodies.
2. _________--Hydrogen 2. _________--Hydrogen
has a slightly positive has a slightly positive
charge while oxygen has a charge while oxygen has a
slightly negative charge. slightly negative charge.
This makes it easy for This makes it easy for
water to pry apart other water to pry apart other
charged molecules, charged molecules,
dissolving them. Called a dissolving them. Called a
__________________.__________________.
Polarity
Universal Solvent
B. Water has many B. Water has many
characteristics that make it characteristics that make it
vital to our bodies.vital to our bodies.
2. _________--Hydrogen 2. _________--Hydrogen
has a slightly positive has a slightly positive
charge while oxygen has a charge while oxygen has a
slightly negative charge. slightly negative charge.
This makes it easy for This makes it easy for
water to pry apart other water to pry apart other
charged molecules, charged molecules,
dissolving them. Called a dissolving them. Called a
__________________.__________________.
Polarity
Universal Solvent
II. Water Chemistry
B. Water has many characteristics that B. Water has many characteristics that
make it vital to our bodies.make it vital to our bodies.
3. _______________--Due to polarity, 3. _______________--Due to polarity,
water forms a crystal structure that is water forms a crystal structure that is
less dense than liquid water. less dense than liquid water.
Crystal structure
B. Water has many characteristics that B. Water has many characteristics that
make it vital to our bodies.make it vital to our bodies.
3. _______________--Due to polarity, 3. _______________--Due to polarity,
water forms a crystal structure that is water forms a crystal structure that is
less dense than liquid water. less dense than liquid water.
Crystal structure
II. Water Chemistry
B. Water has many characteristics that B. Water has many characteristics that
make it vital to our bodies.make it vital to our bodies.
4. _____________--water absorbs and 4. _____________--water absorbs and
releases heat energy slowly, and can releases heat energy slowly, and can
hold a great deal of heat energy. This hold a great deal of heat energy. This
helps organisms maintain their body helps organisms maintain their body
temperature in the safe range.temperature in the safe range.
Heat capacity
B. Water has many characteristics that B. Water has many characteristics that
make it vital to our bodies.make it vital to our bodies.
4. _____________--water absorbs and 4. _____________--water absorbs and
releases heat energy slowly, and can releases heat energy slowly, and can
hold a great deal of heat energy. This hold a great deal of heat energy. This
helps organisms maintain their body helps organisms maintain their body
temperature in the safe range.temperature in the safe range.
Heat capacity
II. Water Chemistry
B. Water has many B. Water has many
characteristics that make it characteristics that make it
vital to our bodies.vital to our bodies.
5. __________________--5. __________________--
Polarity allows water to Polarity allows water to
stick to itself (cohesion) stick to itself (cohesion)
and to any charged and to any charged
material (adhesion). material (adhesion).
Water can glue materials Water can glue materials
together.together.
Cohesion &
Adhesion
B. Water has many B. Water has many
characteristics that make it characteristics that make it
vital to our bodies.vital to our bodies.
5. __________________--5. __________________--
Polarity allows water to Polarity allows water to
stick to itself (cohesion) stick to itself (cohesion)
and to any charged and to any charged
material (adhesion). material (adhesion).
Water can glue materials Water can glue materials
together.together.
Cohesion &
Adhesion
II. Water Chemistry
B. Water has many B. Water has many
characteristics that characteristics that
make it vital to our make it vital to our
bodies.bodies.
6. _______--Water 6. _______--Water
can act as either an can act as either an
acid or a base, acid or a base,
maintaining a stable maintaining a stable
pH in our bodies.pH in our bodies.
Buffer
B. Water has many B. Water has many
characteristics that characteristics that
make it vital to our make it vital to our
bodies.bodies.
6. _______--Water 6. _______--Water
can act as either an can act as either an
acid or a base, acid or a base,
maintaining a stable maintaining a stable
pH in our bodies.pH in our bodies.
Buffer
III. Macromolecules
A. What are they?A. What are they?
1. 1. ____________________________________________________________________
______________________________________________________________________________
2. Made of smaller pieces called 2. Made of smaller pieces called
__________ that can be assembled like __________ that can be assembled like
legos to form a variety of structures. A legos to form a variety of structures. A
large chain of monomers is called a large chain of monomers is called a
_________._________.
Very large molecules that make Very large molecules that make
most of the structure of the bodymost of the structure of the body
monomers
polymer
A. What are they?A. What are they?
1. 1. ____________________________________________________________________
______________________________________________________________________________
2. Made of smaller pieces called 2. Made of smaller pieces called
__________ that can be assembled like __________ that can be assembled like
legos to form a variety of structures. A legos to form a variety of structures. A
large chain of monomers is called a large chain of monomers is called a
_________._________.
Very large molecules that make Very large molecules that make
most of the structure of the bodymost of the structure of the body
monomers
polymer
III. Macromolecules
B. CarbohydratesB. Carbohydrates
1. Monomer: ____________________1. Monomer: ____________________
2. Polymer: _____________________2. Polymer: _____________________
3. Structure:______________________3. Structure:______________________
________________________________________________________________
4. Uses: ___________________4. Uses: ___________________
5. Examples: ________________5. Examples: ________________
monosaccharide (sugar)
polysaccharide (starch)
rings of carbon with
oxygen and hydrogen attached; CH
2
O
energy, plant structure
sucrose, cellullose
B. CarbohydratesB. Carbohydrates
1. Monomer: ____________________1. Monomer: ____________________
2. Polymer: _____________________2. Polymer: _____________________
3. Structure:______________________3. Structure:______________________
________________________________________________________________
4. Uses: ___________________4. Uses: ___________________
5. Examples: ________________5. Examples: ________________
monosaccharide (sugar)
polysaccharide (starch)
rings of carbon with
oxygen and hydrogen attached; CH
2
O
energy, plant structure
sucrose, cellullose
Examples of Carbohydrates
III. Macromolecules
C. LipidsC. Lipids
1. Monomer: __________1. Monomer: __________
2. Polymer: ___________2. Polymer: ___________
3. Structure:______________________3. Structure:______________________
________________________________________________________________
4. Uses: ________________________4. Uses: ________________________
5. Examples: ____________________5. Examples: ____________________
fatty acid
lipid or fat
3 long chains of carbon
hydrogen on a glycerol molecule
energy, structure, warmth
fat, oil, cholesterol
C. LipidsC. Lipids
1. Monomer: __________1. Monomer: __________
2. Polymer: ___________2. Polymer: ___________
3. Structure:______________________3. Structure:______________________
________________________________________________________________
4. Uses: ________________________4. Uses: ________________________
5. Examples: ____________________5. Examples: ____________________
fatty acid
lipid or fat
3 long chains of carbon
hydrogen on a glycerol molecule
energy, structure, warmth
fat, oil, cholesterol
Examples of Lipids
III. Macromolecules
D. ProteinD. Protein
1. Monomer: _______________1. Monomer: _______________
2. Polymer: _____________________2. Polymer: _____________________
3. Structure:______________________3. Structure:______________________
________________________________________________________________
4. Uses: ________________________4. Uses: ________________________
5. Examples: ____________________5. Examples: ____________________
amino acid (20)
protein or polypeptide
central carbon atom with
hydrogen, amine, carboxyl, & R groups
structure, emergency energy
skin, insulin, enzymes
D. ProteinD. Protein
1. Monomer: _______________1. Monomer: _______________
2. Polymer: _____________________2. Polymer: _____________________
3. Structure:______________________3. Structure:______________________
________________________________________________________________
4. Uses: ________________________4. Uses: ________________________
5. Examples: ____________________5. Examples: ____________________
amino acid (20)
protein or polypeptide
central carbon atom with
hydrogen, amine, carboxyl, & R groups
structure, emergency energy
skin, insulin, enzymes
Examples of Proteins
III. Macromolecules
E. Nucleic AcidsE. Nucleic Acids
1. Monomer: _______________1. Monomer: _______________
2. Polymer: ___________2. Polymer: ___________
3. Structure:______________________3. Structure:______________________
________________________________________________________________
4. Uses: ___________________4. Uses: ___________________
5. Examples: _______________5. Examples: _______________
nucleotide (5)
nucleic acid
5-carbon sugar attached
to nitrogen base and phosphate group
stores genetic code
DNA and RNA
E. Nucleic AcidsE. Nucleic Acids
1. Monomer: _______________1. Monomer: _______________
2. Polymer: ___________2. Polymer: ___________
3. Structure:______________________3. Structure:______________________
________________________________________________________________
4. Uses: ___________________4. Uses: ___________________
5. Examples: _______________5. Examples: _______________
nucleotide (5)
nucleic acid
5-carbon sugar attached
to nitrogen base and phosphate group
stores genetic code
DNA and RNA
Examples of Nucleic Acids
IV. ATP
A. ATP stands for _____________________A. ATP stands for _____________________
B. Cells use ATP as a __________________B. Cells use ATP as a __________________
C. Made of adenine with ___ phosphatesC. Made of adenine with ___ phosphates
D. Lots of energy is stored in the bond D. Lots of energy is stored in the bond
between _____________________________between _____________________________
E. When this bond is broken, tremendous E. When this bond is broken, tremendous
energy is released.energy is released.
F. The pieces are then reassembled, storing F. The pieces are then reassembled, storing
more energy for another use. more energy for another use.
adenosine triphosphate
the second and third phosphates
3
rechargeable battery
A. ATP stands for _____________________A. ATP stands for _____________________
B. Cells use ATP as a __________________B. Cells use ATP as a __________________
C. Made of adenine with ___ phosphatesC. Made of adenine with ___ phosphates
D. Lots of energy is stored in the bond D. Lots of energy is stored in the bond
between _____________________________between _____________________________
E. When this bond is broken, tremendous E. When this bond is broken, tremendous
energy is released.energy is released.
F. The pieces are then reassembled, storing F. The pieces are then reassembled, storing
more energy for another use. more energy for another use.
adenosine triphosphate
the second and third phosphates
3
rechargeable battery
Examples of ATP
V. Enzymes
A. Special proteins that A. Special proteins that
speed chemical reactionsspeed chemical reactions
1. Chemical reactions 1. Chemical reactions
require a certain require a certain
_______________ to get _______________ to get
started.started.
2. Enzymes decrease 2. Enzymes decrease
this energy, making this energy, making
reactions occur faster.reactions occur faster.
activation energy
A. Special proteins that A. Special proteins that
speed chemical reactionsspeed chemical reactions
1. Chemical reactions 1. Chemical reactions
require a certain require a certain
_______________ to get _______________ to get
started.started.
2. Enzymes decrease 2. Enzymes decrease
this energy, making this energy, making
reactions occur faster.reactions occur faster.
activation energy
V. Enzymes
B. Lock-and-Key ModelB. Lock-and-Key Model
1. Enzymes are not used up by the 1. Enzymes are not used up by the
reaction, but each can only work on one reaction, but each can only work on one
reaction (________________).reaction (________________).
2. This is called the lock-and-key model 2. This is called the lock-and-key model
of enzymes. An enzyme is like a _____ of enzymes. An enzyme is like a _____
which can open exactly one _____. If which can open exactly one _____. If
you want to “unlock” another reaction, you want to “unlock” another reaction,
you need a different enzyme.you need a different enzyme.
enzyme specificity
key
lock
B. Lock-and-Key ModelB. Lock-and-Key Model
1. Enzymes are not used up by the 1. Enzymes are not used up by the
reaction, but each can only work on one reaction, but each can only work on one
reaction (________________).reaction (________________).
2. This is called the lock-and-key model 2. This is called the lock-and-key model
of enzymes. An enzyme is like a _____ of enzymes. An enzyme is like a _____
which can open exactly one _____. If which can open exactly one _____. If
you want to “unlock” another reaction, you want to “unlock” another reaction,
you need a different enzyme.you need a different enzyme.
enzyme specificity
key
lock
V. Enzymes
V. Enzymes
C. Factors which affect enzymesC. Factors which affect enzymes
1. _____________--enzymes, like all 1. _____________--enzymes, like all
proteins, change shape when exposed proteins, change shape when exposed
to heat or cold. Each has an optimal to heat or cold. Each has an optimal
temperature range.temperature range.
2. ____--all enzymes have an optimal 2. ____--all enzymes have an optimal
range of pH. Example: stomachrange of pH. Example: stomach
3. _____________--having more 3. _____________--having more
enzymes makes the reaction faster.enzymes makes the reaction faster.
Temperature
pH
Concentration
C. Factors which affect enzymesC. Factors which affect enzymes
1. _____________--enzymes, like all 1. _____________--enzymes, like all
proteins, change shape when exposed proteins, change shape when exposed
to heat or cold. Each has an optimal to heat or cold. Each has an optimal
temperature range.temperature range.
2. ____--all enzymes have an optimal 2. ____--all enzymes have an optimal
range of pH. Example: stomachrange of pH. Example: stomach
3. _____________--having more 3. _____________--having more
enzymes makes the reaction faster.enzymes makes the reaction faster.
Temperature
pH
Concentration
Images used in this presentation
were obtained from:
Atom: PowerPoint clipartAtom: PowerPoint clipart
Water molecule and Water attraction: Water molecule and Water attraction:
stainsfile.info/StainsFile/jindex.htmlstainsfile.info/StainsFile/jindex.html
Bohr water molecule: ghs.gresham.k12.or.usBohr water molecule: ghs.gresham.k12.or.us
Spoon on nose: statweb.calpoly.eduSpoon on nose: statweb.calpoly.edu
pH scale: bcn.boulder.co.uspH scale: bcn.boulder.co.us
Glucose and Cellulose: www.greenspirit.org.ukGlucose and Cellulose: www.greenspirit.org.uk
Sucrose: encarta.msn.comSucrose: encarta.msn.com
were obtained from:
Atom: PowerPoint clipartAtom: PowerPoint clipart
Water molecule and Water attraction: Water molecule and Water attraction:
stainsfile.info/StainsFile/jindex.htmlstainsfile.info/StainsFile/jindex.html
Bohr water molecule: ghs.gresham.k12.or.usBohr water molecule: ghs.gresham.k12.or.us
Spoon on nose: statweb.calpoly.eduSpoon on nose: statweb.calpoly.edu
pH scale: bcn.boulder.co.uspH scale: bcn.boulder.co.us
Glucose and Cellulose: www.greenspirit.org.ukGlucose and Cellulose: www.greenspirit.org.uk
Sucrose: encarta.msn.comSucrose: encarta.msn.com
Images, continued
Saturated and unsaturated fatty acids, cis and Saturated and unsaturated fatty acids, cis and
trans fat, and lipid molecule: biology.clc.uc.edutrans fat, and lipid molecule: biology.clc.uc.edu
Generic Amino acid: ffden-2.phys.uaf.eduGeneric Amino acid: ffden-2.phys.uaf.edu
Peptide bond: www.rothamsted.bbsrc.ac.ukPeptide bond: www.rothamsted.bbsrc.ac.uk
Nucleotide: faculty.uca.eduNucleotide: faculty.uca.edu
DNA helix: www.biologycorner.comDNA helix: www.biologycorner.com
ATP: textbookofbacteriology.netATP: textbookofbacteriology.net
Activation energy: faculty.clintocc.suny.eduActivation energy: faculty.clintocc.suny.edu
Enzyme lock-and-key: www.celltech.comEnzyme lock-and-key: www.celltech.com
Saturated and unsaturated fatty acids, cis and Saturated and unsaturated fatty acids, cis and
trans fat, and lipid molecule: biology.clc.uc.edutrans fat, and lipid molecule: biology.clc.uc.edu
Generic Amino acid: ffden-2.phys.uaf.eduGeneric Amino acid: ffden-2.phys.uaf.edu
Peptide bond: www.rothamsted.bbsrc.ac.ukPeptide bond: www.rothamsted.bbsrc.ac.uk
Nucleotide: faculty.uca.eduNucleotide: faculty.uca.edu
DNA helix: www.biologycorner.comDNA helix: www.biologycorner.com
ATP: textbookofbacteriology.netATP: textbookofbacteriology.net
Activation energy: faculty.clintocc.suny.eduActivation energy: faculty.clintocc.suny.edu
Enzyme lock-and-key: www.celltech.comEnzyme lock-and-key: www.celltech.com
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