A team led by Johns Hopkins scientists has found the first clear evidence that the process behind the human immune system’s remarkable ability to recognize and respond to a million different proteins might have originated from a family of genes whose only apparent function is to jump around in genetic material. “Jumping genes” essentially cut themselves out of the genetic material, and scientists have suspected that this ability might have been borrowed by cells needing to build many different proteins from a specific, single set of instructions -- the key to recognizing a million immune-stimulating proteins. But until now, no jumping gene was known to behave just right. Writing in the Dec. 23 issue of Nature, the researchers show that a jumping gene called Hermes, still active in the common house fly, creates changes in DNA very much like those created by the process behind antigen recognition. “Hermes behaves more like the process used by the immune system to recognize a million different proteins, called antigens, than any previously studied jumping gene,” says Nancy Craig, Ph.D., professor of molecular biology and genetics in Johns Hopkins’ Institute for Basic Biomedical Sciences and a Howard Hughes Medical Institute investigator. “It provides the first real evidence that the genetic processes behind antigen diversity might have evolved from the activity of a jumping gene, likely a close relative of Hermes.”
