The DNA of many organisms, including animals, yeasts and fungi, is found inside the cell nucleus. These organisms as a group are referred to as eukaryotes, which means "true nucleus." In eukaryotic cells, the DNA can also be found in larger structures called chromosomes, which in some cases can be seen through a microscope during cell division. Some chromosomes have a distinct, familiar "X" type structure.
Unlike eukaryotic cells, bacterial cells do not have a defined nucleus. In addition, the bacterial chromosome consists of a single large circle of DNA, rather than the distinct superstructure associated with higher organisms. Because of the lack of a nucleus, bacteria are categorised as a separate group of organisms called prokaryotes.
In all organisms, the entire genetic complement of a single organism the sum of all of its genes is referred to as the genome. (You have heard this term in relation to the Human Genome Initiative, an ambitious international effort to identify, clone and sequence every human gene).
While we do work with DNA at Amgen, our principle interest lies in proteins, the workhorse molecules of the cell. Proteins have a number of uses within the body. Hormones act as cellular messengers, while the cytoskeleton makes up structural components. Enzymes are mediators of the cell's metabolism, and antibodies and lymphokines are major components of the body's immune response.
As a result of their biological significance, proteins can make excellent drug candidates when we capitalise on their natural functions. Genes, in the form of DNA, are our basic instructions in creating proteins of interest.
