Control of eukaryotic translation

Which step in translation is rate limiting?

initiation - highly regulated and involves < 25 proteins.

1 of 37

What mediates translation?

The ribosome

2 of 37

What does each subunit do?

Large - joins amino acids to the polypeptide chain. Small - reads the RNA

3 of 37

In what direction does the ribosome move?

5' to 3' end.

4 of 37

Draw the features of a typical mRNA

5' methylated GTP cap. Hairpin, Internal riboome entry site.][Poly A tail]

5 of 37

What is the methylated GTP cap for?

regulates nuclear export of mRNA, mRNA stability. Critical for translation initiation as it binds eLF4E

6 of 37

what does the IRES do?

allow translation independantly of the cap recognition

7 of 37

Describe the first step in the formation of the 43s subunit

40s associates with elf3 and elf1a.

8 of 37

What is the effect of these elfs binding?

prevents the reassociation of the 60s subunit

9 of 37

What is the next thing to join the 40s subunit

elF2, with met-tRNA attached

10 of 37

What completes the 43S pre-initation complex

Elf4f and elf5.

11 of 37

What makes the 48s complex

elf4f binds to the 7'methyl guanosine cap of mRNA

12 of 37

What does the 48s complex do/

Scan the mRNA for an AUG start codon

13 of 37

What happens once the AUG is found

the 60s ribosomal sub-unit associates and all factors dissociate

14 of 37

Two sites of regulation of initation

elf4f and elf2.

15 of 37

Describe the elf4f complex

large elf4g, with elf4e, elf4b and elf4a attached.

16 of 37

What might be the rate limiting factor?

elF4E because there is relatively low concentrations compared to numbers of ribosomes and other factors.

17 of 37

What binds the 5'cap of mRNA

elF4E

18 of 37

What does elF4G bind?

polyA binding protien - PABP

19 of 37

Why is PABPs action useful

it circularises the DNA, allowing the ribosome to transfer form 3' end to 5' end without dissociatinf

20 of 37

describe the structure of elf2

a, b and y subunit. y subunit is gtp bound.

21 of 37

How is elF2 involved in regulation of translation

phosphorylated by a-kinase on the ser51, which INHIBITS translation

22 of 37

When is a-kinase active?

in viral infection, metabolite starvation, hypoxia.

23 of 37

Elongation - where does the energy required to move the ribosome come from

Hydrolysis of GTP several times

24 of 37

Why might elongation be stalled

miRNA (+risc) binding to 5'UTR

25 of 37

How can elongation be regulated?

eEF2 can be phosphorylated which inhibits elongation.

26 of 37

Why would eef2 be phosphorylated

by MAP kinase cascade, in response to starvation hypoxia and stress via protien kinase A, or via cell cycle regulatory protiens

27 of 37

When does termination occur?

Once one of the stop codons appears - UAA, UAG, UGA.

28 of 37

What happens when a stop codon is in the A site

eRF1 binds, and eRF3 acts as a GTPase to stimulate polypeptide release

29 of 37

Four times when translation is regulated

in response to growth factors and hormones, in the cell cycle, in viral infection, in structures with IRES and IRE

30 of 37

An example of growth factors/hormones regulating translation

insulin --> insulin receptor --> Ras phosphorylates RAF --> MEK --> ERK --> Mnk1 --> elF4E = promotion of translation

31 of 37

The Cell cycle and translational regulation

at G2/M, cap-dependant translation is inhibited. elF4E phosphorylation is reduced, and there is increase phosphorylation of elf2A and eEF2.

32 of 37

Is all translation stopped at G2/M?

No- specific genes with IRES sequences are still translated

33 of 37

Example of viruses regulating translation

picornaviruses - eg, poliovirus and encephalomyocarditis, cleave elf4g and PAMP

34 of 37

How does viral mRNA escape inhibition?

they all have internal ribosomal entry sites.

35 of 37

How do IRES control translation?

forms stem loop structures that allow translation even when cap dependant initation is blocked

36 of 37

IRE-IRP interactions when the iron concentration is high

When iron concentration is HIGH - it binds IRP, preventing IRE binding, allowing translation of ferritin (storage) but decreasing transferrin receptors.

37 of 37

Get Revising

Control of eukaryotic translation

Other cards in this set

Card 2

Front

Back

Card 3

Front

Back

Card 4

Front

Back

Card 5

Front

Back

Comments

Similar Biology resources:

Other cards in this set

Card 2

Front

Back

Card 3

Front

Back

Card 4

Front

Back

Card 5

Front

Back

Comments

Related discussions on The Student Room

Similar Biology resources: