Resource: Genetics: Tour of the Basics

Chromosomes inside the nucleus of nearly every cell are built from long strands of DNA. The ladder-shaped DNA molecule, also called deoxyribonucleic acid, is formed from many smaller molecules called nucleotides. These nucleotides, of which there are four types (usually referred to by the first letter of their chemical name, A, T, C, and G) are repeated in various sequences over and over again—three billion times in a human cell.

Genes are specific sequences of nucleotides that provide the code to build particular proteins. An organism's genes and the proteins created from them strongly influence the traits that the organism will ultimately possess. In humans, physical and behavioral characteristics result from the interplay among tens of thousands of proteins and a wide variety of environmental conditions.

Traits that result from a single gene are called Mendelian traits, after Gregor Mendel, the nineteenth-century amateur scientist who first explained genetic inheritance. Mendel studied a variety of traits in pea plants. For example, the pea plants in his study contained genes that produced either yellow or green peas. Alternate forms of another gene in Mendel's pea plants gave rise to either smooth seeds or wrinkled seeds. Studying the inheritance patterns of such simple traits made it possible for Mendel to develop the basic understanding of heredity that would ultimately give rise to modern biology and genetics.

Although most organisms, including humans, possess some traits that are determined by a single gene, we now know that the development of most traits is far more complex than the simple inheritance patterns Mendel described. In humans and in countless other animals, traits such as stature, hair and skin color, temperament, the predisposition to many diseases, and numerous other characteristics are each influenced by multiple genes and a variety of environmental factors. This complexity explains why there is such variety in the living world—a range of sizes, shapes, and colors, rather than a dichotomy of tall and short, black and white, or round and thin.

To learn more about how mutations can affect an organism's traits, check out A Mutation Story, One Wrong Letter, and Finding Disease Genes.

To learn more about the form and function of chromosomes and DNA, check out Chromosome Viewer, Journey into DNA, and Genetic Variation.

To learn more about Mendelian genetics, check out Mendel's Laws of Genetic Inheritance and Some Genes Are Dominant.

• How can a four "letter" code provide information that determines many, many different traits?
• What is the relationship between a DNA "word" and "sentence"?
• All of our genes are made of DNA. What makes one gene different from another?
• If each of our cells contains the same DNA, why is a liver cell different from a nerve cell?
• Why are most human traits not inherited in the simple manner depicted for the hitchhiker's thumb?