Translation Protein

After the mRNA enters the cytoplasm, through the nuclear pore, it associates with a ribosome.

Ribosomes are made of two subunits and the mRNA binds to the smaller subunit at the start codon – always AUG 

Once the mRNA is bound to the ribosome, it can then be read by tRNA molecules

tRNAs are small, single stranded, clover leaf shaped molecules

They are attached to an amino acid that matches the sequence of bases on its anti-codon (opposite side)

The large subunit of the ribosome then binds and translation can begin

From this point on we can actually start making the polypeptide chain

Once the ribosome is fully assembled, a second tRNA molecule with a complementary anticodon is able to bind to the mRNA

The second tRNA carries the specific amino acid coded for by the mRNA codon

A peptide bond is formed between the two amino acids, forming a dipeptide, and releasing the methionine from the first tRNA

To form this peptide bond, ATP must be used

The first tRNA is then free to move away and pick up another amino acid

The ribosome then moves along the mRNA strand by exactly three base pairs (one codon)

The first tRNA is released

The second tRNA is still attached, waiting for the third tRNA to move into place

A third tRNA, with a complementary anticodon, and carrying a specific amino acid, is now able to bind to the next mRNA codon

It forms another peptide bond between its amino acid and the previous amino acid

Once a ribosome has moved far enough along the mRNA strand, there is enough space for a second ribosome to attach at the start codon as produce a second polypeptide

Each mRNA molecule is read many times to produce lots of copies of the same protein

This results in many identical polypeptides being synthesised simultaneously from the same mRNA strand

There are no tRNA molecules with complementary anticodons for the stop codons.

There are three types of stop codon: UGA, UAG and UAA

Therefore, once a stop codon is reached, no tRNAs can bind and the synthesised polypeptide is released from the last tRNA molecule

Both ribosome subunits separate from the mRNA strand and are quickly reused for another round of translation, maybe even going back to the start codon to move along it again

Meanwhile, the polypeptide coils and folds into a specific tertiary structure, determined by the amino acid sequence

The polypeptide may also bind to other polypeptides and/or prosthetic groups to form a protein with a quaternary structure