Title: Chapter%206%20Chemistry%20in%20Biology
1Chapter 6 Chemistry in Biology
- 6.1 Atoms, Elements and Compounds
2Elements
- Everything is made of substances called elements
- About 90 elements occur naturally
- About 16 elements are man made
- Of the 90 naturally occurring elements, only 25
are essential to living things
3Periodic Table of the Elements
4Reading the Periodic Table
5Periodic Table of the Elements
6Needed in Macro-amounts
- Oxygen 65
- Carbon 18.5
- Hydrogen 9.5
- Nitrogen 3.3
- Other elements are needed in trace amounts
7Trace Elements
- All organisms need trace elements even though
they are needed in very small amounts they are
essential for life - Plants absorb the trace elements from the soil
- Animals eat the plants and other animals
- Examples iron, magnesium, gold, arsenic, copper
and many others
8Atoms The Building Blocks of Elements
- Atoms is the smallest particle of an element that
has the characteristics of that element - Nucleus contains protons () and neutrons (0)
- Electrons (-) in cloud around nucleus
Carbon atom
9Electron Energy Levels
- Certain numbers of electrons can occupy different
regions around the nucleus of an atom - Energy Levels
- 1st- closest to nucleus 2 electrons
- 2nd- next level out 8 electrons
- 3rd- further level out 18 electrons
10Electron Energy Levels
- Closest energy levels are always filled first
- Carbon atoms have 6 electrons
- 2 electrons are in the first energy level
- The remaining 4 electrons fill the second energy
level
11Potassium Energy Levels
- 19 total electrons
- 2 electrons in first energy level
- 8 electrons in second energy level
- 9 would be in third energy level but this is
unstable - 8 electrons in third
- 1 electron in fourth
12Isotopes of an Element
13Isotopes of an Element
- Atoms that have different numbers of neutron but
the same number of protons - Have same protons (atomic number) but different
numbers of neutrons (atomic mass) - Most isotopes are unstable and the nuclei break
apart and give off radiation - Useful for X rays
- Useful for radioactive dating
14Chemistry in Biology
Chapter 6
6.1 Atoms, Elements, and Compounds
van der Waals Forces
- When molecules come close together, the
attractive forces between slightly positive and
negative regions pull on the molecules and hold
them together.
- The strength of the attraction depends on the
size of the molecule, its shape, and its ability
to attract electrons.
15Compounds and Bonding
- Compounds composed of two or more different
elements that are chemically combined (bonded) - Chemical bonds hold atoms together so that they
are more stable - Atoms are more stable when they have their outer
electron energy levels filled - Bonds can be covalent or ionic
16Covalent Bonds
- Atoms share electrons
- Covalent means cooperate
- A molecule is a group of atoms held together by
covalent bonds
17Ionic Bonds
- Ionic bonds involve gaining or losing electrons
- Na has lost an electron and now has a positive
charge - Cl has gained and electron and now has a negative
charge - Opposite charges attract
18Ionic Bonds
- Ions are atoms that have gained or lost electrons
- Lose electron have a positive charge
- Gain electrons have a negative charge
- Ionic bonds are not as common as covalent in
living organisms
19Chapter 6 Chemistry in Biology
20Chemical Reactions
- When chemical reaction occur, bonds between atoms
are formed or broken causing substances to
combine and recombine as different molecules - All of the chemical reactions that take place in
an organism is called metabolism - Chemical reaction depend on many things
temperature, concentration and pH
21Balancing Chemical Reactions
- Matter cannot be created or destroyed only
changed in form - So all atoms must be accounted for in a chemical
reaction
22Balancing Chemical Reactions
- What you start with (reactants) must equal what
you end up with (products) - 2H2 O2 2H2O
- 2 x 2 H 2 x 2
- 2 O 2 x 1
23Chemistry in Biology
Chapter 6
6.2 Chemical Reactions
Energy of Reactions
- The activation energy is the minimum amount of
energy needed for reactants to form products in a
chemical reaction.
24Chemistry in Biology
Chapter 6
6.2 Chemical Reactions
- This reaction is exothermic and released heat
energy.
- The energy of the product is lower than the
energy of the reactants.
25Chemistry in Biology
Chapter 6
6.2 Chemical Reactions
- This reaction is endothermic and absorbed heat
energy.
- The energy of the products is higher than the
energy of the reactants.
26Chemistry in Biology
Chapter 6
6.2 Chemical Reactions
Enzymes
- A catalyst is a substance that lowers the
activation energy needed to start a chemical
reaction.
- Enzymes are biological catalysts.
27Chemistry in Biology
Chapter 6
6.2 Chemical Reactions
- The reactants that bind to the enzyme are called
substrates.
- The specific location where a substrate binds on
an enzyme is called the active site.
28Chemistry in Biology
Chapter 6
6.2 Chemical Reactions
- The active site changes shape and forms the
enzyme-substrate complex, which helps chemical
bonds in the reactants to be broken and new bonds
to form.
- Factors such as pH, temperature, and other
substances affect enzyme activity.
29Chapter 6 Chemistry in Biology
30Mixtures and Solutions
- Mixtures are combinations of substances in which
the individual components retain their own
properties, like sand and salt mixed together, no
chemical reactions have taken place - Solutions are a type of mixture where one
substance dissolves in another substance - Solvent does the dissolving water
- Solute gets dissolved sugar
- Solutions are very important in living things as
we are 75 water
31Acids and Bases
- pH is a measure of how acidic or basic a
substance is
32Ph Scale
- Most of our foods are acidic
- Most of our cleaning supplies are basic (alkaline)
33Blood pH
34Chemistry in Biology
Chapter 6
6.3 Water and Solutions
- Buffers are mixtures that can react with acids or
bases to keep the pH within a particular range.
35Importance of Water
- Most lifes process (chemical reactions) can only
happen in water - Water is a transport medium blood and sap
- Water has a high specific heat holds heat and
requires more heat to change its temperature
works like an insulator - Water expands when it freezes, less dense ice
floats on top
36Structure of Water
- Chemical formula H2O
- Water is polar
- Oxygen end negative
- Hydrogen end positive
37Polar Covalent Bonds
- The electron in the covalent bond between the
hydrogen and oxygen spends more time with the
oxygen - Causes the oxygen end to be slightly negative,
hydrogen end to be slightly positive
38Hydrogen Bonds Form due to Polarity
- Hydrogen bonds are weak bonds between molecule
- Positive end of one molecule is attracted to
negative end of another molecule - Causes cohesion
- Causes adhesion
39Waters Hydrogen Bonds
40Chapter 6 The Chemistry of Life
- 6.4 The Building Blocks of Life
41Carbon
- Carbon is the element present in all life
substances - Carbon has a unique structure
- Shares four electrons
- Forms four covalent bonds
- Can have single, double, or triple bonds
- Because of bonding some molecules of the same
formula can have different shapes
CH4 Methane
42Carbon
- Glucose has formula C6H12O6
- Fructose has formula C6H12O6
- Isomers have same formula but different
43Carbohydrates
- Contain carbon, hydrogen, and oxygen
- Subunit glucose
- Two types simple and complex
44Simple Carbohydrates Sugars
- Monosaccharides one sugar
- Glucose
- Fructose
- Galactose
- Disaccharides two sugars
- Sucrose glucose and fructose
- Maltose glucose and glucose
- Lactose glucose and galactose
45Simple Carbohydrates Sugars
Fructose
46Complex Carbohydrates Polysaccharides
- Include starch, cellulose and glycogen
- All are chains of glucose
- Difference is how the chains are put together and
type of bonds holding the glucose together
47Starch
- Carbohydrate storage for plants
48Cellulose
- Carbohydrate structural support for plants and
algae - Found in the cell wall to give the cell structure
and support
49Glycogen
- Carbohydrate storage for animals
- Found in liver and can move to any location
- Found in muscle and only stays in that muscle
Liver Cell
50Lipids
- Contain carbon, hydrogen, and oxygen
- Subunit fatty acid
- Three types
- Diglycerides
- Triglycerides
- Sterols
Many more carbon-hydrogen bonds to store large
amounts of energy
51Fatty Acids
- Can be saturated with hydrogen and have no double
bonds (most animal fats) - Can have double bonds and be unsaturated (most
plant fats) - Health risks associated with saturated fats
52Diglycerides
- A Phosphodiglyceride is the main part of cell
membranes - Not a large component of our body
- Not a large component of the food we eat
- Contain a glycerin backbone and two fatty acid
chains
53Triglycerides
- The most common lipid
- Found in our bodies
- Found in the food we eat
- Called fats and oils
- Contain a glycerin backbone and three fatty acid
chains
54Sterols
- Contain four interconnected carbon rings
- Common one is cholesterol
- Many other sterols are made from cholesterol
- Some hormones are sterols
55Proteins
- Contain, carbon, hydrogen, oxygen and nitrogen
- Subunit amino acid
- 20 different amino acids
- Linked by peptide bond
- Types structural protein and enzymes
- Structural- build a part
- Enzymes- control the rate of chemical reactions
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57Enzymes
- Works on a specific substrate
- Lock and key fit with the substrate
- Products are released
- After reaction the enzyme resumes its original
shape and can react again with another substrate
58Nucleic Acids
- Contain carbon, hydrogen, oxygen, nitrogen and
phosphorus - Subunits nucleotide
- Phosphate group
- Sugar
- Nitrogen base
- Types RNA and DNA
Nucleotide
59DNA and RNA
60DNA
- Deoxyribonucleic acid
- Information storage for cell in cells nucleus
- Directs cells activities
- Genetic code blueprint
- Double helix
61RNA
- Ribonucleic acid
- Needed by DNA to make proteins
- Working copy of DNA
- Leaves the nucleus