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Transcript
CHAPTER 2
CHEMISTRY, MATTER AND LIFE
ELEMENTS
• Table 2-1 reviews all of the important elements you
should be familiar with.
• Most important to living things (and this class) are:
• CHNOPS
ATOMS
• Elements are different kinds of atoms. They are
unique because of the number of PROTONS they
contain.
• All atoms are made of PROTONS, NEUTRONS and
ELECTRONS
ELECTRON AND BONDING
Since electrons circle the nucleus they are the
particles that are involved in creating chemical
bonds.
The outermost electrons are located in the outermost
energy level, which typically wants to be filled with 8
electrons.
If an atom only has 5 electrons in its outermost energy
level, it will want to find 3 more electrons to share.
MOLECULES AND COMPOUNDS
• A molecule is formed when two or more atoms are
bonded together.
• A compound is a special type of molecule that is
made of two or more different elements. (example:
H2O, CO2)
WATER
•
•
•
•
•
•
Most abundant compound in body
Critical in all physiologic processes in body tissues
Deficiency (dehydration) can threaten health
Universal solvent
Stable liquid at ordinary temperatures
Participates in chemical reactions in body
MIXTURES
• Solution components
• Indistinguishable from one another
• Evenly distributed throughout (homogeneous)
• Suspension components
• Separate from solvent
• Settle out (heterogeneous or non-uniform)
• Colloid components
• Separate from solvent
• Evenly distributed throughout
CHEMICAL BONDS
• Electrons transferred
between atoms form ionic
bonds.
• Electrolytes— ionic bonds
form compounds that
release ions when they are
in solution
• Influence homeostasis (stable
condition of normal organism)
• Conduct electronic current
COVALENT BONDS
A chemical bond in which
atoms share electrons
• Non-polar covalent bond
• Polar covalent bond
ACIDS, BASES AND SALTS
Compounds are chemical substances with specific
properties
•Acid can donate hydrogen ion (H+)
•Base (alkali) can accept hydrogen ion (H+)
•Salt is formed by a reaction between an acid and a
base
THE PH SCALE
• Represents relative
concentrations of
hydrogen and
hydroxide ions in a
solution
• Scale from 0 (most
acidic) to 14 (most
basic)
• Each unit represents a
10-fold change
• Body fluids usually 7.357.45 pH
BUFFERS
• Chemicals that prevent sharp changes in hydrogen
ion concentration and maintain relatively constant
pH in body fluids
• Blood is a good chemical buffer
ISOTOPES AND RADIOACTIVITY
Elements can exist in several forms (isotopes).
• Same number of protons and electrons
• Different number of neutrons
• Different atomic weights
• May be stable or unstable (radioactive)
USES OF RADIOACTIVITY
Radioisotopes are the rays given off by some
radioactive elements.
•Can penetrate and destroy cancer cells
•Can aid in diagnosis
• X-rays
• Tracers
CHEMISTRY IN LIVING THINGS
Living matter contains 26 of 92 natural elements.
• 96% of body weight—four elements
• 4% of body weight—nine elements
• 0.1% of body weight—13 elements
ORGANIC COMPOUNDS
Chemical compounds that characterize living things
• Contain carbon, hydrogen, and oxygen
• Carbohydrates
• Lipids
• Proteins
CARBOHYDRATES
• Polysaccharides are broken down into
monosaccharides to form glucose- which is broken
down for and used for fuel
• Glycogen is stored in liver and skeletal muscles
• Glycogenesis- making glycogen from glucose
• Glycogenolysis- breaking down glycogen to make
glucose
LIPIDS
• Fatty Acids can be saturated or unsaturated
• Unsaturated can be omega-3 or omega-4 fatty
acids
• Important health implications
Fatty acids and glycerol are the preferred fuel source for
many tissues
PROTEINS
• Most abundant macromolecule in the body
• Contain CHON
• Made of amino acids
• 20 amino acids
• Essential vs nonessential
MAJOR FUNCTIONS OF PROTEIN
• Support
– Structural Protein
• Movement
– Contractile Protein
• Transport
– Transport (carrier)
• Buffering
– Regulation of pH
• Metabolic Regulation
– Enzymes
• Coordination and
Control
– Hormones
• Defense
– Antibodies
Enzymes are catalysts
•Proteins that are not changed or used up in a reaction
•Specific to a substrate
•Limited by their saturation
•Regulated by chemicals and hormones
•Can be denatured by changes in temperature or pH