Polypeptide synthesis – Transcription and Splicing


Transcription is the process of making pre-mRNA using part of the DNA as a template.


  1. The Enzyme DNA Helicase acts on a specific region of the DNA molecule, this cases the hydrogen bonds to break between base pairs. this cause the two strands of DNA to separate, and expose the nucleotides.
  2. The enzyme RNA Polymerase then moves along the two strands of DNA, these are know as the template strands, and cause the nucleotides on the template strand to join to individual complimentary nucleotides in the nuclear pool.
  3. In this way, exposed Guanine bases are linked to the free Cytosine bases in the nuclear pool. in this way, cytosine links to guanine, thymine joins to adenine, and adenine joins to uracil.
  4. As the RNA polymerase adds the nucleotides one at a time to build a strand of of pre-mRNA, the DNA strands rejoin behind it. As a result, only approx. 12 base pairs on the DNA are exposed at any one time.
  5. when the RNA polymerase reaches a certain section of bases on the DNA strand, it recognises a stop triplet code, and detaches. the production of pre-mRNA is complete.



DNA is made up of sections called exons and introns.Exons code for proteins, and introns do not. In Eukaryotic cells, these non-functioning introns are removed. This process is called splicing. once the introns have been removed, the exons can be rejoined into a variety of combinations. a single strand of DNA can code for dozens of proteins. Disease such as alzheimer’s are caused by splicing failures.