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Biology Honors

Chapter 3 Study Guide

INTRODUCTION TO ORGANIC COMPOUNDS

3.1 Life’s molecular diversity is based on the properties of carbon

Organic compounds found in cells are composed of bonded to other elements.

Methane and other compounds composed of only carbon and hydrogen are called .

A chain of carbon atoms is called a .

Different compounds with the same molecular formula are called .

3.2 Characteristic chemical groups help determine the properties of organic compounds

An organic compound has unique properties that depend upon:

 and of the molecule

The attached to it

A affects a biological molecule’s function in a characteristic way

Compounds containing functional groups are(water-loving).

Functional Group / Description
consists of a hydrogen bonded to an oxygen
a carbon linked by a double bond to an oxygen atom
consists of a carbon double-bonded to both an oxygen and a hydroxyl group
composed of a nitrogen bonded to two hydrogen atoms and the carbon skeleton
Consists of a phosphorus atom bonded to four oxygen atoms

An example of similar compounds that differ only in functional groups is .

Male and female sex hormones differ only in functional groups

Result = distinguishable features of males and females

3.3 Cells make a huge number of large molecules from a small set of small molecules

There are four classes of biological molecules

They contain very large molecules known as .

They are also called because they are made from identical building blocks strung together. The building blocks are called .

Monomers are linked together to form polymers through, which remove water.

Polymers are broken apart by, the addition of water.

All biological reactions of this sort are mediated by, which speed up chemical reactions in cells.

3.4 Monosaccharides are the simplest carbohydrates

Carbohydrates range from small sugar molecules (monomers) to large polysaccharides.

The carbon skeletons of monosaccharides vary in length.

are the main fuels for cellular work.

They are also used as raw materials to manufacture other organic molecules.

3.5 Cells link two single sugars to form disaccharides

Two monosaccharides can bond to form ain a dehydration reaction.

3.6 What is high-fructose corn syrup and is it to blame for obesity?

When you drink a soda, you are probably consuming a sweetener called (HFCS)

Because fructose is sweeter than glucose, glucose atoms produced from starch are rearranged to make the glucose isomer, fructose.

3.7 Polysaccharides are long chains of sugar units

are polymers of monosaccharides.

Polysaccharide / Description
Is a storage polysaccharide composed of glucose monomers and found in plants
Is a storage polysaccharide composed of glucose, which is hydrolyzed by animals when glucose is needed
Is a polymer of glucose that forms plant cell walls
Is a polysaccharide used by insects and crustaceans to build an exoskeleton

They can function in the cell as a storage molecule or as a structural compound.

Polysaccharides are (water-loving).

3.8 Fats are lipids that are mostly energy-storage molecules

are hydrophobiccompounds that are important in energy storage.

are lipids made from glycerol and fatty acids.

Fatty acids link to glycerol by a .

A fat contains one linked to three .

Fats are often called because of their structure.

Fats with the maximum number of hydrogens are called . They do not have double bonds.

have fewer than the maximum number of hydrogens and contain double bonds.

3.9 Phospholipids and steroids are important lipids with a variety of functions

are structurally similar to fats and are an important component of all cells.

They are a major part of cell membranes, in which they cluster into a bilayer.

glycerol

fatty acid tails

are lipids composed of fused ring structures.

is an example of a steroid that plays a significant

role in the structure of the cell membrane.

3.10 Anabolic steroids pose health risks

are synthetic variants of testosterone that can cause a

buildup of muscle and bone mass.

3.11 Proteins are essential to the structures and functions of life

A is a polymer built from various combinations of 20 amino acids

They have unique structures that are directly related to their functions

, proteins that serve as metabolic catalysts, regulate the chemical reactions within cells.

proteins provide associations between body parts and proteins are found within muscle.

proteins include antibodies of the immune system, and proteins are best exemplified by the hormones.

proteins serve as antenna for outside signals, andproteins carry oxygen.

, the building blocks of proteins, have an amino group and a carboxyl group.

3.12 Proteins are made from amino acids linked by peptide bonds

Amino acid are linked together to form .

This is accomplished by an enzyme-mediated .

The covalent linkage result is called a .

3.13 A protein’s specific shape determines its function

A chain contains hundreds or thousands of amino acids linked by peptide bonds.

The amino acid sequence causes the polypeptide to assume a particular shape

The shape of a protein determines its specific .

will cause polypeptide chains to unravel and lose their shape andtheir function.

Proteins can be denatured by changes in , , and .

3.14 A protein’s shape depends on four levels of structure

A protein can have four levels of structure

Levels of Structure / Description
unique amino acid sequence
results from coiling or folding of the polypeptide
The overall three-dimensional shape of a protein
Two or more polypeptide chains associate