Cancer is driven by genetic aberrations that occur spontaneously on a daily basis. It is more complex than any other disease and is our greatest medical challenge. In recent times, cancer has emerged as one of the leading causes of death in developed countries. According to figures from the American Cancer Society, 1630 Americans would have died each day from cancer in 2016, amounting to 595,690 for the whole year. Cancer is the second most common cause of death in the United States, exceeded only by heart disease, and accounts for nearly one in every four deaths. During the average person’s lifetime in the United States, there is a 42% chance of becoming a victim of cancer. As genetic aberrations accumulate with time, the risk of developing a tumor increases with age. Approximately 70% of estimated deaths for the four major cancers (lung and bronchus, colon and rectum, breast, and prostate) occur past the age of 65. What do we know of cancer? Why is it so difficult to cure? How can we reduce the risk of it developing?

In 1859, Charles Darwin, an English naturalist, published On the Origin of Species by Means of Natural Selection, in which he proposed a theory of evolution that occurs by a process of natural selection. In a changing world, life forms compete for limited resources such as food, water, and shelter from predators. Darwin worked on his theory for 20 years and concluded, animals and plants that are better able to compete are more likely to survive and reproduce. Over a period of time, species that adapt to their changing environment survive, while those that fail become extinct. In short, survival of the fittest. Figure 1.1 shows photos of Charles Darwin and Gregor Mendel.

More than 2500 years ago, the ancient Greek philosopher Anaximander (610–546 BC), credited by scholars as one of the greatest minds that ever lived, presented an explanation of the origin of man based on observations of nature. He suggested life originated from moisture that covered the earth before the sun evaporated it, and the first animals were a kind of fish, with a thorny skin. He also proposed that humans were not present at the earliest stages of the earth, but arose from fish later.

The writings of the ancient Roman poet and philosopher Titus Lucretius Carus (99–55 bc) made more than a passing reference to survival of the fittest over 2000 years ago. Lucretius’ poem, the title of which translates to On the Nature of Things or On the Coming into Being of Things, consists of 7400 lines that extoll his philosophy on a wide range of topics including pleasure, religion, death, the physical world, and the nature of diseases.

Lucretius considered people to be made up of the same matter as everything that surrounded them, such as the stars and seas. He proposed that we should follow the pursuit of pleasure and avoidance of pain, as an alternative to living in fear of the gods. Though the gods exist, he suggested they neither made nor manipulated the world, and lived unconcerned with human affairs. Lucretius believed human beings should conquer their fears, come to terms with the fact that all things are transitory, and embrace beauty and the pleasures the world offers.

Around the same time that Darwin was pondering the infinite, Gregor Mendel conducted meticulous crossbreeding experiments with plants, on which many of the rules of genes and their inheritance were established, now referred to as Mendelian genetics. Although not known at the time, Mendel’s rules though developed from work on plants, apply to all living things that reproduce via sexual means. Mendel discovered that when purebred white-flower pea plants were crossbred with purebred purple-flower pea plants, the result was not a mixture of white and purple flower pea plants; all offspring were purple-flower pea plants. This led to the conclusion that there had to be two different traits for the color of the flowers, only one of which was expressed. All the first-generation pea plants were purple because the trait for this color was dominant, while the trait for white was recessive. Mendel also found that although not present in the first generation of plants, white flowers appeared in later generations.

Today we can explain Darwinian evolution using Mendelian genetics.

The Danish botanist Wilhelm Johannsen coined the term gene used to describe Mendelian units of heredity in 1909, some 50 years after Darwin’s publication on natural selection. He also made the distinction between the outward appearance of an organism, its phenotype, and its genetic traits, its genotype. Thus, the color of a flower is its phenotype, while the gene that codes for it is its genotype.

The full complement of genes in any living creature is referred to as its genome. In other words, the template used to create it. The sequencing of the genomes of many forms of life is currently taking place. The first animal genome to be sequenced was the nematode worm in 1998, which is composed of 100 million bases coding for 19,000 genes. In a mere 3 years, the human genome was found to consist of 3.2 billion bases. The first draft of the sequence was published in 2001. It was originally estimated that the human genome would consist of 100,000 genes, but that figure has been revised downwards on a number of occasions to the point where it now stands at 19,000. Surprisingly, we have around the same number of genes as the humble nematode worm.