Stages of Protein Synthesis (Edexcel IGCSE Biology): Revision Note
Exam code: 4BI1
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Transcription & Translation
The process of turning a gene into a specific sequence of amino acids (that in turn make up a specific protein) is split into two stages:
Transcription – DNA is transcribed and an mRNA molecule is produced
Translation – mRNA (messenger RNA) is translated and an amino acid sequence (protein) is produced
Transcription
The transcription stage of protein synthesis occurs in the nucleus of the cell, and its role is to produce a copy of a section of DNA in the form of a strand of mRNA
The sequence of events is as follows:
Part of the DNA molecule unwinds when hydrogen bonds between the complementary base pairs (A-T, G-C) break
This exposes the template strand of the gene that codes for the protein being synthesised
Free mRNA nucleotides that are present in the nucleus bind to complementary nucleotides on the template strand
The mRNA nucleotides are joined to neighbouring nucleotides, forming a single strand of mRNA
The mRNA molecule leaves the nucleus via a pore in the nuclear envelope
The new strand of mRNA is a complementary copy of the DNA code from the original gene
Transcription occurs in the nucleus and produces a molecule of single-stranded mRNA
Translation
This stage of protein synthesis occurs in the cytoplasm of the cell, and results in the production of a chain of amino acids that will go on to form a protein
The process of translation is as follows:
After leaving the nucleus, the mRNA molecule attaches to a ribosome
In the cytoplasm there are free molecules of tRNA (transfer RNA); these tRNA molecules have a triplet of unpaired bases at one end known as the anticodon, and an amino acid at the other
Each specific anticodon corresponds to a specific amino acid
The anticodon on each tRNA molecule pairs with a complementary triplet (codon) on the mRNA molecule, bringing its specific amino acid along with it
A second tRNA molecule attaches to its complementary codon (on the mRNA), and a peptide bond is formed between the two neighbouring amino acids
This process continues until a ‘stop’ codon on the mRNA molecule is reached; this acts as a signal for translation to stop and at this point the amino acid chain coded for by the mRNA molecule is complete
This amino acid chain is then folded and modified to form the final protein molecule, e.g. an enzyme or antibody
Translation occurs on the ribosomes in the cytoplasm, and results in the production of a chain of amino acids. Note that you don't need to know the details about start codons shown here.
Examiner Tips and Tricks
This is a tricky topic, so take your time learning it. Make sure that you understand the roles of mRNA, ribosomes, codons and anticodons in the production of proteins.
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