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BIOCHEMISTRY

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Title: BIOCHEMISTRY


1
BIOCHEMISTRY
2
CHEMISTRY OF LIFE
  • Elements simplest form of a substance - cannot
    be broken down any further without changing what
    it is
  • Atom the actual basic unit - composed of
    protons, neutrons, and electrons

3
THE ATOM
  • Just like cells are the basic unit of life, the
    ATOM is the basic unit of matter.
  • They are very small. If placed side by side one
    million would stretch a distance of 1cm.
  • The atom is made up of 3 particles.

Particle Charge
PROTON
NEUTRON NEUTRAL
ELECTRON -
4
  • Electrons are not present within the atom,
    instead THEY REVOLVE AROUND THE NUCELUS OF THE
    ATOM FORM THE ELECTRON CLOUD
  • Draw a helium atom. Indicate where the protons,
    neutrons and electrons are.

NEUTRONS
PROTONS
-
ATOMIC 2 (PROTONS) ATOMIC MASS 4 (PROTONS
NEUTRONS)


ELECTRONS
-
5
ISOTOPES
  • atoms of the same element that HAVE A DIFFERENT
    NUMBER OF NEUTRONS
  • Some isotopes are radioactive. This means that
    their nuclei is unstable and will break down at a
    CONSTANT RATE over time.
  • There are several practical uses for radioactive
    isotopes
  • CARBON DATING
  • TRACERS
  • KILL BACTERIA / CANCER CELLS

6
COMPOUNDS
  • a substance formed by the chemical combination of
    2 or more elements in definite proportions
  • Ex water, salt, glucose, carbon dioxide

H20
CO2
NaCl
7
  • The cell is a COMPLEX CHEMICAL FACTORY containing
    some of the same elements found in the nonliving
    environment.
  • carbon (C), hydrogen (H), oxygen (O), and
    nitrogen (N) are present in the greatest
    percentages

8
TWO TYPES OF COMPOUNDS
  • Organic - Contain C, H, and O in some ratio
    (usually referred to as chemicals of life)
  • Carbohydrates, Proteins, Lipids, Nucleic Acids
  • Inorganic - usually "support" life - no specific
    ratio of C, H, and O
  • Water (H2O), Carbon Dioxide (CO2)

9
CHEMICAL BONDS
  • Chemical bonds hold the atoms in a molecule
    together.
  • There are 2 types of chemical bonds IONIC and
    COVALENT

10
IONIC BONDS
  • Occur when 1 or more electrons are TRANSFERRED
    from one atom to another.
  • When an atom loses an electron it is a POSITIVE
    charge.
  • When an atom gains an electron it is a NEGATIVE
    charge
  • These newly charged atoms are now called IONS
  • Example NaCl (SALT)

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12
COVALENT BONDS
  • Occur when electrons are SHARED by atoms.
  • These new structures that result from covalent
    bonds are called MOLECULES
  • In general, the more chemical bonds a molecule
    has the more energy it contains

SHARING IS CARING!
13
MIXTURES
  • Water is not always pure. It is often found as
    part of a mixture.
  • A mixture is a material composed of TWO OR MORE
    ELEMENTS OR COMPOUNDS THAT ARE PHYSICALLY MIXED
  • Ex salt pepper mixed, sugar and sand can be
    easily separated

14
SOLUTION
  • Two parts
  • SOLUTE SUBSTANCE THAT IS BEING DISSOLVED (SUGAR
    / SALT)
  • SOLVENT - the substance in which the solute
    dissolves
  • Materials that do not dissolve are known as
    SUSPENSIONS.
  • Blood is the most common example of a suspension.
  • Cells other particles remain in suspension.

15
FORMULA
  • The chemical symbols and numbers that compose a
    compound ("recipe")
  • Structural Formula Line drawings of the
    compound that shows the elements in proportion
    and how they are bonded
  • Molecular Formula the ACTUAL formula for a
    compound

C2H6O
16
ACIDS BASES
  • Acids always (almost) begin with "H" because of
    the excess of H ions (hydrogen)
  • Ex lemon juice (6), stomach acid (1.5), acid
    rain (4.5), normal rain (6)
  • Facts about Acids
  • Acids turn litmus paper red and usually taste
    SOUR.
  • You eat acids daily (coffee, vinegar, soda,
    spicy foods, etc)

17
ACIDS BASES
  • Bases always (almost) end with -OH because of
    the excess of hydroxide ions (Oxygen Hydrogen)
  • EX oven cleaner, bleach, ammonia, sea water,
    blood, pure water
  • Facts about Bases
  • Bases turn litmus BLUE.
  • Bases usually feel SLIPPERY to touch and taste
    BITTER.

18
Neutralization Reactions
  • When an acid reacts with a base to produce a salt
    and water.

19
pH SCALE
  • measures degree of substance alkalinity or
    acidity
  • Ranges from 0 to 14
  • 0 5 strong acid
  • 6-7 neutral
  • 8-14 strong base

20
  • The goal of the body is to maintain HOMEOSTASIS
    (neutrality) to do this when pH is concerned,
    we add weak acids bases to prevent sharp
    changes in pH.
  • These are called BUFFERS

21
And now for the Biochemistry portion of things.
22
ORGANIC COMPOUNDS
LIPIDS
PROTEINS
NUCLEIC ACIDS
CARBOHYDRATES
23
CARBOHYDRATES
  • Living things use carbohydrates as a key source
    of ENERGY!
  • Plants use carbohydrates for structure
    (CELLULOSE)
  • include sugars and complex carbohydrates
    (starches)
  • contain the elements carbon, hydrogen, and oxygen
    (the hydrogen is in a 21 ratio to oxygen)

24
Monosaccharides (simple sugars)
  • all have the formula C6 H12 O6
  • all have a single ring structure
  • (glucose is an example)

25
Disaccharides (double sugars)
  • all have the formula C12 H22 O11
  • sucrose (table sugar) is an example

26
Polysaccharides
  • Formed of three or more simple sugar units
  • Glycogen - animal starch stored in liver
    muscles
  • Cellulose - indigestible in humans - forms cell
    walls
  • Starches - used as energy storage

27
How are complex carbohydrates formed and broken
down?
28
Dehydration Synthesis
  • Combining simple molecules to form a more complex
    one with the removal of water
  • ex. monosaccharide monosaccharide ----gt
    disaccharide water
  • (C6H12O6 C6H12O6 ----gt C12H22O11 H2O
  • Polysaccharides are formed from repeated
    dehydration syntheses of water
  • They are the stored extra sugars known as starch

29
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30
Hydrolysis
  • Addition of WATER to a compound to SPLIT it into
    smaller subunits
  • (also called chemical digestion)
  • ex. disaccharide H2O ---gt monosaccharide
    monosaccharide
  • C12 H22 O11 H2 O ---gt C6 H12 O6 C6 H12 O6

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32
Lipids (Fats)
  • Fats, oils, waxes, steroids
  • Chiefly function in energy storage, protection,
    and insulation
  • Contain carbon, hydrogen, and oxygen but the HO
    is not in a 21 ratio
  • Tend to be large molecules -- an example of a
    neutral lipid is below

33
  • Neutral lipids are formed from the union of one
    glycerol molecule and 3 fatty acids
  • 3 fatty acids glycerol ----gt neutral fat
    (lipid)
  • Fats -- found chiefly in animals
  • Oils and waxes -- found chiefly in plants
  • Oils are liquid at room temperature, waxes are
    solids
  • Lipids along with proteins are key components of
    cell membranes
  • Steroids are special lipids used to build many
    reproductive hormones and cholesterol

34
PROTEINS
  • contain the elements carbon, hydrogen, oxygen,
    and nitrogen
  • composed of MANY amino acid subunits
  • It is the arrangement of the amino acid that
    forms the primary structure of proteins.
  • The basic amino acid form has a carboxyl group on
    one end, a methyl group that only has one
    hydrogen in the middle, and a amino group on the
    other end.
  • Attached to the methyl group is a R group.

35
AN R GROUP IS ANY GROUP OF ATOMS THIS CHANGES
THE PROPERTIES OF THE PROTEIN!
36
FUNCTIONAL GROUPS
  • There are certain groups of atoms that are
    frequently attached to the organic molecules we
    will be studying, and these are called functional
    groups.
  • These are things like hydroxyl groups which form
    alcohols, carbonyl groups which form aldehydes or
    ketones, carboxyl groups which form carboxylic
    acids, and amino groups which form amines.

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38
Major Protein Functions
  • Growth and repair
  • Energy
  • Buffer -- helps keep body pH constant

39
Dipeptide
  • formed from two amino acid subunits
  • Formed by the process of Dehydration Synthesis
  • amino acid amino acid ----- dipeptide water

40
Hydrolysis of a dipeptide
  • Breaking down of a dipeptide into amino acids
  • dipeptide H2O ---gt aminoacid amino acid

41
Polypeptide (protein)
  • composed of three or more amino acids linked by
    synthesis reactions
  • Examples of proteins include insulin, hemoglobin,
    and enzymes.
  • There are an extremely large number of
    different proteins.
  • The bases for variability include differences in
    the number, kinds and sequences of amino acids in
    the proteins

42
NUCLEIC ACIDS
  • in all cells
  • composed of NUCLEOTIDES
  • store transmit heredity/genetic information
  • Nucleotides consist of 3 parts
  • 1. 5-Carbon Sugar
  • 2. Phosphate Group
  • 3. Nitrogenous Base

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44
DNA (deoxyribonucleic acid)
  • contains the genetic code of instructions that
    direct a cell's behavior through the synthesis of
    proteins
  • found in the chromosomes of the nucleus (and a
    few other organelles)

45
RNA (ribonucleic acid)
  • directs cellular protein synthesis
  • found in ribosomes nucleoli

46
CHEMICAL REACTIONS
  • a process that changes one set of chemicals into
    another set of chemicals
  • REACTANTS elements or compounds that enter into
    a chemical reaction
  • PRODUCTS elements or compounds that are
    produced in a chemical reaction
  • Chemical reactions always involve the breaking of
    bonds in reactants and the formation of new bonds
    in products.

47
  • In a reaction, energy is either TAKEN IN
    (ENDOTHERMIC) or GIVEN OFF (EXOTHERMIC)
  • Can you think of an everyday example of each type
    of reaction?

48
Enzymes and Enzyme Action
  • catalyst inorganic or organic substance which
    speeds up the rate of a chemical reaction without
    entering the reaction itself
  • enzymes organic catalysts made of protein
  • most enzyme names end in -ase
  • enzymes lower the energy needed to start a
    chemical reaction. (activation energy)
  • begin to be destroyed above 45øC. (above this
    temperature all proteins begin to be destroyed)

49
  • It is thought that, in order for an enzyme to
    affect the rate of a reaction, the following
    events must take place.
  • The enzyme must form a temporary association with
    the substance or substances whose reaction rate
    it affects. These substances are known as
    substrates.
  • The association between enzyme and substrate is
    thought to form a close physical association
    between the molecules and is called the
    enzyme-substrate complex.
  • While the enzyme-substrate complex is formed,
    enzyme action takes place.
  • Upon completion of the reaction, the enzyme and
    product(s) separate. The enzyme molecule is now
    available to form additional complexes.

50
How do enzymes work?
  • substrate molecules upon which an enzyme acts
  • the enzyme is shaped so that it can only lock up
    with a specific substrate molecule
  • enzyme
  • substrate -------------gt product

51
"Lock and Key Theory"
  • each enzyme is specific for one and ONLY one
    substrate (one lock - one key)
  • this theory has many weaknesses, but it explains
    some basic things about enzyme function

52
Factors Influencing Rate of Enzyme Action
  • 1. pH - the optimum (best) in most living things
    is close to 7 (neutral)
  • high or low pH levels usually slow enzyme
    activity
  • A few enzymes (such as gastric protease) work
    best at a pH of about 2.0

53
  • 2. Temperature - strongly influences enzyme
    activity
  • optimum temperature for maximum enzyme function
    is usually about 35-40 C.
  • reactions proceed slowly below optimal
    temperatures
  • above 45 C most enzymes are denatured (change in
    their shape so the enzyme active site no longer
    fits with the substrate and the enzyme can't
    function)

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  • 3. Concentrations of Enzyme and Substrate
  • When there is a fixed amount of enzyme and an
    excess of substrate molecules -- the rate of
    reaction will increase to a point and then level
    off.
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