What is a Helix?
A helix is a shape formed by a smooth curve. To visualize a helix, imagine a ribbon wound around a stick, or the spiral cord between a telephone handset and its base. A spiral staircase is another practical example of a helix.
In biology, large molecules do not exist simply as long straight chains; instead, they coil and fold into very complex forms. The form a molecule has plays a crucial role in determining the properties and function of the molecule. A helix is one such three-dimensional shape formed by large molecules, and this shape has an important role in biology.
Helices can either be right or left-handed depending on the turn of the curve around the center axis. The orientation of a helix can be determined by looking at it along its length. If the movement away from the observer is clockwise, then the helix is right-handed. If the movement is in the anti-clockwise direction, then a left-handed helix is being observed. The handedness, or chirality, cannot be changed by looking at it from a different perspective, but is an inherent property of the helix.
In 1951, Linus Pauling and Robert B. Corey of the California Institute of Technology showed that precise coiling of the protein keratin allowed hydrogen bonds to form and stabilize the structure. What they discovered was an alpha helix, which is an example of a right-handed helix. They determined that the helical structure helps to maintain the shape of the molecule and gives it a much more stable structure than when it is unwound.
Proteins are made up of chains of amino acids, called polypeptides. Within proteins, each turn of the alpha helix takes up about 3.6 amino acids of the polypeptide chain. The helical shape is maintained through hydrogen bonds forming between the amino group of one amino acid and the oxygen of the third amino acid beyond it in the chain.
Fibrous proteins, including keratin, show a helical pattern at its most basic. There are also complex proteins that have helical arrangements, including collagen, which is a triple helix. Collagen is made up of three polypeptide chains, each an alpha helix, all wound around each other.
Deoxyribonucleic acid (DNA) and Ribonucleic acid (RNA) are two other examples of molecules that have an alpha helical structure. RNA usually consists of a single strand of nucleotides wound into an alpha helix, while DNA is made up of two strands, or a double alpha helix. It is very rare for DNA to exist in a single chain; instead two identical chains, oriented in opposite directions, are arranged side by side. The nitrogenous bases between the two chains link together through hydrogen bonding, forming bridges, like the rungs of a ladder. This makes DNA very stable, which is extremely important to protect the genetic material stored in a molecule.
Written by Victoria Blackburn
