Biochemistry Reviewing the 4 macromolecules of life!!! Objectives 1.Describe the structure and functions of carbohydrates, lipids, proteins and nucleic acids 2.Describe the structure and function of the cells membrane (phospholipid bilayer) 3.Describe the process of diffusion, osmosis and facilitated diffusion
Quiz 1.State 1 of the 3 major concepts from the ‘Cell Theory’. (1 mark) 2.What is the difference between chromosomes and genes? (1 mark) 3.State one way that DNA is different from RNA. (1 mark) 4.What is the function of the cell membrane? (1 mark)
There are four molecules unique to cells referred to as “molecules of life” They are: 1. Carbohydrates 2. Lipids 3. Proteins 4. Nucleic Acids (DNA & RNA) Reviewing Concepts Atoms Molecules Cells Tissues Organs Organ systems ORGANISM
These molecules are all organic molecules, because they all contain carbon and hydrogen. They are referred to as macromolecules, because they are formed of smaller sub-units. Review Concepts
1. Carbohydrates Sugars: contain C, H, O These are our primary source of energy
When food containing carbohydrates is eaten, they are broken down by digestive enzymes into monosaccharides (sugars), the smallest sub-unit of carbohydrate that cells can use. examples of CHO’s are: Bread, Rice, Cereals, Pasta, Vegetables, Fruit, Legumes (beans), Honey, Sugar, Cookies, Crackers, muffins, Candy, Juice, Pop
a) Monosaccharides -single sugars, Ex. fructose, galactose, glucose
When macromolecules are being BUILT (several smaller molecules are joined), a water molecule (H 2 O) is removed. This is referred to as a Dehydration Reaction.
b) Disaccharides - double sugars: result of two monosaccharides joining together through a dehydration reaction, ex. maltose, sucrose
c) Polysaccharides (‘many sugars’) -complex: result of 3 or more monosaccharides linking together -need to be digested before we can absorb them ex. glycogen, starch, cellulose (in plants)
The Fats of Life: LIPIDS Fats, oils, cholesterol, hormones Composed of C,H,O but not water soluble Store the most energy: these are energy storing molecules!
Three types of fats 1. Triglycerides 2. Phospholipids (plasma membrane) 3. Sterols (from hormones)
1. TRIGLYCERIDES Most common fat in plants and animals, used in storage A molecule of 3 fatty acids attached to a glycerol backbone: fatty acid
2. PHOSPHOLIPIDS -structural components of cell membrane hydrophobic tail hydrophilic phosphate head
The Plasma membrane – phospholipid bilayer
The Cell Membrane
function - controls the passage of molecules in and out of the cell - selectively permeable or semi-permeable; allows only certain molecules or ions to enter or leave the cell -allows inside of cell to be different than its environment Plasma Membrane (cont’d)
3. STEROLS Cholesterol is a natural component of cell membranes used by cells to make steroid hormones, vitamin D, bile salt
Third Group of Macromolecules: PROTEINS The functional molecules – Help chemical reactions take place (ex. enzymes) – Repair and maintain the cell – Transport materials around the body – Ex. enzymes, hemoglobin, hair
There are 7 classes or categories of body proteins: (this will not be on the test) STRUCTURAL – eg. collagen in tendons, ligaments; keratin in hair CONTRACTILE eg. actin and myosin in muscle cells STORAGE eg. ovalbumin in the developing embryo DEFENSIVE eg. antibodies in blood plasma TRANSPORT eg. hemoglobin inside red blood cells transports O 2 SIGNAL eg. hormones, neurotransmitters ENZYMES eg. enzymes which control all metabolic reactions Categories of Proteins
the basic unit or sub-unit or building block of a protein molecule is an AMINO ACID there are 20 different amino acids each with its’ own name e.g. glycine amino acids are linked together in a long chain to form a protein Amino Acids (a.a.)
Proteins are "un-branched chains of amino acids"
Amino acids link together during protein synthesis through peptide bonds to form a POLYPEPTIDE – Most functional proteins will contain hundreds and thousands of amino acids linked together
when proteins are exposed to extremes of heat or pH, they undergo an irreversible shape change called denaturation loss of shape means loss of function e.g. Alzheimer’s disease – formation of unusual protein plaques and tangles that disrupt brain function
Your Task Create a table to summarize the structure, function and give an example of each of the 3 types of macromolecules we have just discussed. You will need to include a spot for nucleic acids as well. For homework, read about nucleic acids in your hand out. Summarize the structure and function of nucleic acids and state the two types of nucleic acids as examples. Homework: Answer the questions on your hand out. There will be a QUIZ on this tomorrow.
Macromolecule Review