Biological roles of the elements
The chemical elements that occur naturally on Earth's surface have a wide diversity of roles in the structure and metabolism of living things. They vary greatly in importance, going from being found in every living organism to showing no known use to any of them. Four of these elements are essential to every living thing and collectively make up 99% of the mass of protoplasm. Phosphorus and sulfur are also common essential elements, essential to the structure of nucleic acids and amino acids, respectively. Chlorine, potassium, magnesium, calcium and sodium have important roles due to their ready ionization and utility in regulating membrane activity and osmotic potential. The remaining elements found in living things are primarily metals that play a role in determining protein structure. Examples include iron, essential to hemoglobin; and magnesium, essential to chlorophyll. Some elements are essential only to certain taxonomic groups of organisms, particularly the prokaryotes. For instance, some of the lanthanide elements are essential for some prokaryotes, such as methanogens. As shown in the following table, there is strong evidence that 19 of the elements are essential to all living things, and another 17 are essential to some taxonomic groups. Of these 17, most have not been extensively studied, and their biological importance may be greater than currently supposed.
The remaining elements are not known to be essential. There appear to be several causes of this.
- Apart from the known essential elements, most elements have only received direct biological study in connection with their significance to human health; this has incidentally included study of some laboratory animals such as chickens and rats, and plants of agricultural importance. There is evidence that certain elements are essential to groups other than humans, but there has been little effort to systematically study any group other than humans or laboratory animals to determine the effects of deficiency of uncommon elements, and for these groups knowledge is largely limited to information that has been gathered incidentally to study other aspects of each organism.
- The noble gases helium, neon, argon, krypton, xenon are non-reactive and have no known direct biological role — however xenon exhibits both anesthetic and neuroprotective side-effects despite usually being considered chemically inert, and can activate at least one human transcription factor.
- Some elements readily substitute for other, more common elements in molecular structures; e.g. bromine often substitutes for chlorine, or tungsten for molybdenum. Sometimes this substitution has no biological effect; sometimes it has an adverse effect.
- Many elements are benign, meaning that they generally neither help nor harm organisms, but may bioaccumulate. However, since the literature on these elements is almost entirely focused on their role in humans and laboratory animals, some of them may eventually be found to have an essential role in other organisms. In the following table are 56 benign elements.
- A few elements have been found to have a pharmacologic function in humans and possibly other living things. In these cases, a normally nonessential element can treat a disease. An example is fluorine, which reduces the effects of iron deficiency in rats.
- All elements with atomic number 95 or higher are synthetic and radioactive with a very short half-life. These elements have never existed on the surface of the Earth except in minute quantities for very brief time periods. None have any biological significance.