Cheatography
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Translation steps and ribosome structure and synthesis
This is a draft cheat sheet. It is a work in progress and is not finished yet.
Ribosome Structure & Synthesis
Structure |
Synthesis |
Large ribonucleoprotein (RNP) complexes that contain large amounts of RNA |
Synthesis is complex and energetically demandind |
Highly conserved |
Ribosomes are produced in abundance to make necessary proteins |
Have a large and small subunit. Translation occurs at the interface, where the two subunits meet |
Specialised proteins for ribosome synthesis are also produced in abundance |
Codon anticodon binding occurs on small subunit (decoding centre), peptide bond formation occurs on large subunit (peptidyltransferase centre- PTC) |
rRNA transcription and processing occur in nucleoli which are found in the nucleus |
3 binding sites are found on the interface: A, P, E |
Ribosomal subunits are generated and are only functional in the cytoplasm, they do not work in the nucleus |
Charged tRNA initially binds to A site, then moves to P site and peptide bond forms, finally tRNA moves to E site, and then leaves the ribosome |
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Peptidyltransfer and Translation Steps
Peptidyltransfer |
Initiation |
Elongation |
Termination |
Charging enzymes attach amino acid to the 3’ end of the tRNA via a carboxylic ester linkage to a carboxyl group |
The start codon must be directed to the P site to start translation |
Two tRNAs are bound to the ribosome at one time; A and P sites (pre-translocation state), or P and E sites (post-translocation state, ribosome has moved along the RNA) |
Termination/release factors recognise the stop codon |
Amino acids are added to the carboxyl end of the polypeptide chain |
Prokaryotes: a nucleotide sequence close to the start codon pairs with rRNA |
Elongation factors are proteins that aid the elongation process. There are different types for specific functions. |
Initial binding of RF1 or RF2 (prokaryotes), or eRF1 (eukaryotes) causes peptide hydrolysis |
Peptidyltransfer reaction is the formation of a peptide bond between two amino acids |
Allows initiation to occur on multiple sites along the sequence, useful for polycistronic mRNA |
EF1A brings the charged tRNA to the ribosome |
RF3 (prokaryote) or eRF1 (eukaryote) allows release of RF1/RF2 from ribosome |
Aminoacyl tRNA- peptide bond is attached to the amino group |
Eukaryotes: ribosome is targeted to the start of the transcript, the small subunit moves along the sequence until the start codon is recognised |
EF2 aids the movement of ribosome along the mRNA chain |
RF3 is a GTPase |
Peptidyl tRNA- peptide bond is attached to the carboxyl group |
Small subunit moves along sequence until it recognises the start codon. Large subunit is recruited to start translation |
Both are GTPases, and have the capacity to hydrolyse GTP to GDP. Each time an amino acid is added to the polypeptide chain GTP is hydrolysed into GDP |
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