RNA and Ribosomes

"In the beginning, RNA was a simple molecule, but over time it has gained many functions. From self-replication, to storing and utilising information, to regulating cellular pathways."

The Central Dogma

The central dogma is used to explain how information encoded on DNA is used to create what we know as life. Essentially, DNA is converted to RNA which is converted to proteins (figure 1).

DNA (Deoxyribonucleic acid) is a polymer molecule (made up of sub-units called nucleotides or bases) which has a double stranded helical structure (figure 1a). There are four types of bases (Guanine - G, Cytosine - C, Adenosine - A, and Tyrosine - T)which can be joined together in many different conformations to form different DNA molecules, and each type of base is able to pair with one other type; C pairs with G, and A pairs with T (figure 2). Bases which pair are described as being complementary.
DNA's primary job is to store biological information in the form of genes, which are encoded by the bases which make up the DNA molecule. For example, CGGGATGTATTAC could encode for a specific gene.

RNA (RiboNucleic Acid) is similar to DNA in that it is a polymer molecule and made up of nucleotides/bases, but it differs in a few crucial ways. The first is that usually RNA is made up of only a single strand, as opposed to DNA's double stranded structure (figure 1b). The second is that in RNA, the Tyrosine (T) base is not used, instead it is replaced with Uracil (U).

As mentioned above, RNA is the second stage of The Central Dogma. Usually, RNA is used as an intermediate between DNA and proteins and is made using DNA as a template, meaning that the sequence of the RNA molecule is determined by the sequence of the DNA from which it is copied. There are many reasons why an intermediate is required instead of simply using DNA. These reasons include:

• protection of the DNA: damage to DNA can cause unfavourable mutations so it is safer to use a 'copy' rather than the original,
• regulatory reasons: the presence or absence of RNA can correspond to the presence/absence of the protein which it encodes for, meaning that it can be used to control cellular pathways
• inability of DNA to reach protein machinery: in eukaryotic cells (animals, plants, fungi, etc.), the DNA is separated from the rest of the cell by a nuclear envelope, DNA is unable to pass through this envelope but RNA is able to

Proteins are the end product of The Central Dogma and are used to carry out functions and generally create what we recognise as life. Proteins are also polymer molecules made up of subunits, but unlike with DNA and RNA these subunits are not bases/nucleotides, they are amino acids. Amino acids are relatively simple molecules which all share a generic structure, but have different functional (R) groups (figure 3). The interactions of the functional groups, both with other functional groups of the same/different proteins, and with other molecules/etc. in its environment, gives the protein its overall function. These functions can range from catalytic (speed up the rate of a reaction) to structural (shape/strength of a cell), to virulence (causing disease in a host).

As can hopefully be seen from above, RNA is a vital part of The Central Dogma, and therefore is fundamental to life.

The Many Abilities of RNA