Protein translation and post-translational modification

Question 1

explain why some antibiotics inhibit protein synthesis in prokaryotes but not eukaryotes

Answer 1

70s ribosomes - prokaryote 
80s ribosomes - eukaryote 
have different RNA and proteins
antibiotic selectivity inhibits AA 
natural products of bacteria/fungi - give them a selective advantage

Question 2

features of proteins that allow them to enter the secretory pathway

Answer 2

signal sequence - hydrophobic AA 
sequence recognition 
halt translation until bound to RER 
grow into lumen 
cleavage by signal peptidase 
co-translational - as soon as translated it is about to be cleaved

Question 3

summarise the ways in which newly-synthesised proteins can be post-translationally modified

Answer 3

phosphorylation 
proteolytic cleavage - insulin A--B (secretory vesicle) 
lipid groups - phenylation/acylation 
hydroxylation - collagen 
disulphide bond formation (insulin)
addition of carb (glycosylation) 
addition of phosphate (phosphorylation)

Question 4

describe the 40s subunit of ribosomes

Answer 4

the rna folds in on itself

Question 5

What is the direction of protein translation

Answer 5

mRNA transcribed in 5’-3’

N-C terminus

Question 6

describe the structure of mRNA

Answer 6

5’ cap - 7-methyl guanosine - entry site for ribosome
poly-A - protect from degradation
UTR (untranslated regions) involved in regulation of translation/stability

Question 7

how many codons are there

Answer 7

64
common AA several codons
because widely used

Question 8

describe the reading of mRNA

Answer 8

ribosome scans from 5’ of mRNA
translations starts at AUG
continues in frame
stops at first in frame stop codon

Question 9

describe tRNA

Answer 9

transporters of AA to ribosome 
single strand 
fold in tertiary structure 
anticodon exposed 
antiparallel binding

Question 10

describe the function of aminoacyl tRNA synthetases

Answer 10

1 for each AA 
important in fidelity of translation  - selectivity for correct AA and tRNA, hydrolysis of incorrect aa-tRNA 
help tRNA 
hook AA to tRNA 
AA -- E-AMP-AA
complex come to specific tRNA - recognition step
remove AMP and enzyme 
hooked to side at 3' 
ready to go to ribosomes

Question 11

describe initiation of translation

Answer 11

• dissociation of ribosome subunits
• assembly of pre-initiation complex - e1F4E and e1F4G bind to cap and are recognised by 40s/Met-tRNA/eIF2
• binding of mRNA to pre-initiation complex - Met binding sets frame of translation
• binding of 60s subunit - GTP-GDP + Pi - ensure binding to correct base pair

Question 12

describe elongation of translation

Answer 12

factors movement of ribosome using GDP

• bind tRNA in A site on ribosome in frame with met
• peptidyl transferase catalyses peptide bond between 2 AA
• Translocation of peptidal tRNA to P site - elongation factors promote movement with GTP
• new cycle
• EFs - GTP hydrolysis provide pauses to increase accuracy of translation

Question 13

describe termination of translation

Answer 13

• recognise stop codon - hydrolysis (peptidyl transferase) - release factors bind to empty A site

Question 14

streptomycin

Answer 14

inhibit initiation

Question 15

tetracycline

Answer 15

inhibit aa-tRNA binding

Question 16

erythromycin

Answer 16

inhibits translocation

Question 17

chloramphenicol

Answer 17

inhibits peptidyl transferase

Question 18

puromycin

Answer 18

terminates elongation prematurely