The Structure of mRNA, tRNA and DNA

DNA

DNA structure

In 1953, James Watson and Francis Crick, working at the Cavendish Institute in Cambridge put forward their model for the structure of DNA. DNA is a polymer of nucleotides.Nucleotides are made up of:

Phosphate.

Sugar (deoxyribose).

And a base (either adenine, guanine, thymine or cytosine).

DNA is a macromolecule polymer made of subunits called nucleotides. The nucleotides are arranged in two chains which are coiled into a spiral shape called a double helix.

mRNA


RNA Structure

Above shows a messenger RNA molecule, it consists of thousands on mononucleotides. mRNA is a single helical molecule, it is manufactured when DNA forms a mirror copy of one of its two strands. Once formed, mRNA leaves the nucleus via pores in the nuclear envelope. It then enters the cytoplasm, where it associates with ribosomes. Here, it acts as a template where upon where proteins are built.

mRNA is suited to function as it possesses all of the correct sequences of numerous triplets of organic bases that code for polypeptides. mRNA can also be easily broken down, and only exists while it is need to manufacture a specific protein.

tRNA

tRNATransfer RNA is a small molecule made up of approximately 80 nucleotides. It is a single strand chain folded into a clover-leaf shape, with one end extending beyond the other. This is the part of the tRNA molecule where amino acids attach. There are several types of RNA, each able to carry a single amino acid. At the other end of the tRNA molecule there is a sequence of three organic bases, this is known as the anti-codon. for each amino acid the anti-codon differs.

In RNA the base pair Thymine is replaced with Uracil, therefore:

A binds to U

C binds to G.

During protein synthesis the anti-codon pairs with the three complimentary organic bases that make the triplet bases on mRNA. The tRNA structure is structurally suited to lining up the amino acids on the mRNA template during protein synthesis.

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