UNIT 3: Biochemistry

UNIT 3: Biochemistry BIG IDEA: Organic compounds are necessary for life to exist

Organic Molecules • Organic compounds are made up of mostly Carbon • Carbon can form 4 bondswith atoms of other elements as well as with itself • Can form chains, branches and rings • Enormous variety of molecule shapes

Organic Molecules • C can also share pairs of electrons • Clusters of atoms can change the nature of organic molecules

Organic Molecules • Many are built by adding monomers together to build up larger polymers (macromolecule) • Dehydration synthesis builds polymer • Hydrolysis reaction breaks it down

What is dehydration synthesis? • Dehydration= remove water • Synthesis= putting it together • Putting two simple sugars together by removing water Forms a disaccharide

Hydrolysis • Opposite of dehydration synthesis • Separating disaccharide into two monosaccharide by adding water • Maltose+ water Glucose +Glucose

Example • Glucose + Glucose Maltose + Water

Classes of Organic Molecules Four classes of organic molecules are essential to living things and their life processes • Carbohydrates • Lipids • Proteins • Nucleic Acids

Carbohydrates

Carbohydrates • Made of carbon, hydrogen, and oxygen atoms in the ratio 1C: 2H :1O Functions: • Major source of energy • Some are also used for structural support • Building block of a carb is a monosaccaride (simple sugar)

Carbohydrates • “single sugar,” building blocks • ex. glucose, fructose, and galactose: these are isomers • Isomers: same chemical formula, different structural formula

Carbohydrates • Manycarbs are disaccarides ( 2 sugarslinkedbydehydrationsynthesis) • ex. sucrose (glucose- fructose), maltose (glucose- glucose), lactose (glucose- galactose) • Sucrose is table sugar • Lactose is milk sugar

Carbohydrates • Polysaccarides-“3 or more sugars,” long branching chains of linked simple sugars, large and insoluble, functions as • short-term storage of energy • Starch: plants • Glycogen: animals • Cellulose: structural support in plants (wood)

Why are Carbs Important? • Because they contain large amounts of energy that can be released by hydrolysis

Lipids

Lipids • Nonpolar molecules, made of mostly C and H, &some O. • Functions: • Long term storage of energy, Structural molecule in cell membranes, Waterproof covering on plants, Chemical messengers – steroids • fats, oils, and waxes.

Lipids • Made up of fatty acids Glycerol and fatty acids

Lipids- Glycerol Structure

Lipids-Fatty acids straight • long carbon chains, with a group at one end. carboxyl

Lipids- Saturated Fatty Acid single • contains only _____________ bonds between carbon atoms. • _________ at room temperature, for example ____________. Solid butter

Lipids- Unsaturated Fatty Acid • contains at least one ________ bond between carbon atoms. _________ at room temperature, for example ________. double Liquid oil

________________________: contains more than one double bond between carbon atoms. Hydrogenation is the process of adding hydrogen to unsaturated fatty acids and results in bad trans-fats. Lipids- Unsaturated Fatty Acid Polyunsaturated Fatty Acids

dehydration A ______________ reaction links the fatty acids to the glycerol molecule making fat (triglyceride).

Lipids • Trigylcerides (fats)- • energy storage • 3 Fatty acids and a gylcerol • Phospholipids-2 • Waxes • Steroids

Cholesterol: Good or Bad? The Good News: • Essential compound in making animal cell membranes, hormones, and vitamin D. The Bad News • Can build-up in arteries and cause heart attacks and strokes

PROTEINS

III. Proteins: amino acids composed of ___________, which are made up of C, H, O, N, and S atoms

A. Amino acids: 20 1. There are ______ different amino acids that make up most proteins.

2. Draw

Amino acids are linked through the dehydration reaction by ____________ to form ____________. peptide bonds polypeptides

Amino acids can be polar, non-polar, charged or uncharged. This affects the ________ of the protein. structure

B. Polypeptides: very long chains of amino acids. The amino acids in the chains interact with each other, forming different types of structures: • Helixes or coils

Helix

B. Polypeptides: very long chains of amino acids. The amino acids in the chains interact with each other, forming different types of structures: • Helixes or coils • Pleated Sheets

Pleated Sheets

B. Polypeptides: very long chains of amino acids. The amino acids in the chains interact with each other, forming different types of structures: • Helixes or coils • Pleated Sheets • Globular

Globular Protein

structure C. The ___________ of a protein is greatly influenced by conditions such as : • Temperature • pH

D. Functions: There are many different kinds of proteins each with different roles.

D. Functions structural support • Provide ________________ and ________________. Example: keratin and collagen 2. Control the rate of _________ reactions: enzymes building material chemical

D. Functions • Carry and transport substances in and out of ____. Example: hemoglobin • Fight against _______: antibodies cells disease

IV. Nucleic Acids composed of a chain of ___________________. nucleotides

A. Nucleotide

a. Names of Nitrogenous Bases • Adenine (A) • Thymine (T) • Cytosine (C) • Guanine (G)

B. DNA (deoxyribonucleic acid) is a double stranded molecule. It stores the hereditary information used to make _____________________. a. Nitrogenous bases pair up: • A and T • G and C proteins

C. RNA (ribonucleic acid) is a single stranded molecule, used in making proteins. a. Uses the nitrogenous base, Uracil (U) instead of Thymine

UNIT 3: Biochemistry