Translation Flashcards
export of mRNA from nucleus to cytoplasm
requires:
1) nuclear export receptor
2) CBC (cap-binding complex)
3) energy
nuclear export receptor
a complex of proteins that attaches to mature mRNA and aids in transporting mRNA out of nucleus into cytoplasm for translation
where in the cell does translation occur
in the cytoplasm
eIF4G and eIF4E
displace the CBC (cap-binding complex) from mRNA transcript in the cytosol; bind to the proteins bound to poly-A tail
wobble base
there is some redundancy at the third position of a codon, so changes in the 3rd position can sometimes still encode for the same amino acid
what are the 3 stop codons
UAA, UGA, UAG
(U Are Annoying, U Go Away, U Are Gone)
*indicate the end of translation
what is the start codon
AUG (codes for methionine)
silent (synonymous) mutations
change in a codon sequence that does NOT change what amino acid is coded for
non-sense mutation
a point mutation that changes a codon that should code an amino acid to a STOP codon
mis-sense (conservative) change
mutation that causes an amino acid to change to a different but similar amino acid (may or may not change the protein function)
mis-sense (non-conservative) change
mutation that causes an amino acid to change to a different but NOT similar amino acid
-ex. hydrophobic aa to a charged aa
reading frame
critical for proper translation; determines where you would start in the sequence; changes in the reading frame can completely alter the amino acid sequence
frameshift mutation
insertion or deletion, which shifts the reading frame and changes the amino acid sequence
tRNA key components
1) anticodon (anneals to mRNA with reverse complement)
2) CCA at 3’ end (where the amino acid is bound)
activation of tRNA
aminoacyl-tRNA synthetases add the amino acid to the tRNA; specific to the AMINO ACID (not to the codon)
subunits of prokaryote ribosome
50S and 30S
subunits of eukaryote ribosome
60S and 40S
small subunit of ribosome
matches the mRNA with the tRNA anti-codons
*binds mRNA first
large subunit of ribosome
catalyzes the peptide bond formation between amino acids on the growing chain
what are ribosomes made of
ribonucleoproteins (RNA and proteins)
***ribosomes assembled in the nucleolus
locations of ribosomes in the cell
1) free ribosomes (in cytoplasm)
2) ER-bound ribosomes
large subunit - 3 sites
A site, P site, E site
A (aminoacyl) site of large subunit
where the new tRNA, bound to an amino acid, comes into the ribosome
P (peptidyl) site of large subunit
where the peptide bond is formed; growing peptide chain is here
