1-26 Protein Synthesis

Question 1

Start codon for translation

Answer 1

AUG

Question 2

what does “the code is degenerate” mean?

Answer 2

there are more codons than amino acids, several codons can code for the same amino acids

Question 3

translation of mRNA goes from

Answer 3

5’ to 3’

Question 4

Codon table trends

Answer 4

right - hydrophobic
charged - left/lower left

middle - polar

Question 5

what does the start codon do

Answer 5

AUG - indicates where synthesis will start and establishes the reading frame

Question 6

silent mutations

Answer 6

does not change the actual amino acid, generally a change in the third letter

however, this mutation can effect the rate of translation, which alters polypeptide folding, leading to proteins with different 3d structure.

this can change the properties of the protein

Question 7

transcription

Answer 7

segment of DNA is transcribed into an mRNA by RNA polymerase

Question 8

Translation

Answer 8

mRNA is decoded at/by ribosome to create polypeptides to form protein

Question 9

describe tRNA structure

Answer 9

cloverleaf stabalized by watson crick pairing

base pairing between 5’3 forms the acceptor

anticodon loop in middle interacts with codon of mRNA

Question 10

aminoacyl tRNA synthetase

Answer 10

enzyme that charges tRNA to amino acid with high energy bond.

uses ATP which gets hydrolyzed to AMP

Question 11

ribosomes are comprised of

Answer 11

a large and small subunit

Question 12

how many binding sites does the ribosome have for tRNA

where?

Answer 12

3

Exit, Peptidyl, Aminoacyl

at the interface of the small and large subunit

Question 13

how do bacteria know which AUG to use?

Answer 13

the shine-delagno sequence just upstream (g-rich) of the correct AUG.

Question 14

how do eukaryotes know which AUG to usee?

Answer 14

eukaryotic mRNA has a 5’ cap in the 5’ UTR, this tells ribosome that downstream is the correct AUG

Question 15

how is mRNA read in bacteria and eukaryotes?

Answer 15

bacteria - linearly

eukaryotes - read in circle. Poly A- tail binds to 5’ cap during reading. can be read by several at the same time, increasing efficiency.

Question 16

what additional factors help transcription?

Answer 16

Initiation factors (IF), elongation factors (Ef-), and Termination/release factors (RF-)

eurkaryotes have an “e” before.
eIF, eEF, eRF ad more of them

Question 17

initiation (Genera)

Answer 17

1. mRNA binds to small ribosomal subunit and is aligned with correct reading frame
2. initiator amino-acyl tRNA binds
3. ribosome assembles from small and large subunits

Question 18

the 30s initiation complex

Answer 18

eIF-2-GTP initiator tRNA binds to small subunit

circular mRNA binds, ribosome searches for start codon

GTP hydrolyzed, releases the initiation factors

large subunit binds, leaving the initator tRNA in P site

Question 19

elongation

Answer 19

1. aminoacyl tRNA binds and checks codon-anticodon match
2. new peptide bond Is formed.
3. Growing chain is translocated from A site to P side, mRNA pulled so next codon is exposed to A site. 4.

Catalytic rRNA of the ribosome creates the peptide bond, no additonal energy needed.

tRNA comes in, peptide bond formed (transpeptidation), mRNA gets pulled so next codon exposed to A site, shifted by one.

Question 20

describe transpeptidation

Answer 20

does not require additional energy, uses the energy from the high energy amino acyl tRNA.

Reaction is catalyzed by the ribosome itself (ribozyme activity).

Question 21

the growing chain is translocated from

Answer 21

the A site to the P site

Question 22

where is the peptide bond formed?

Answer 22

to the c-terminus of the growing chain

Question 23

Termination

Answer 23

1. stop codon in A site
2. release factor binds A site
3. release factor brings in water to hydrolyze peptide chain and released. (the water mimics an incoming amino acid)
4. the complex dissociates

Question 24

rate of translation in eurkayotes vs bacteria?

Answer 24

rate faster in bacteria

Question 25

rate limiting step?

Answer 25

hydrolysis of GTP bound to Elongation factor (Ef-Tu)

as well as proofreading

Question 26

describe the high energy cost of protein syntehsis

Answer 26

Charging tRNA takes ATP
Initiation takes one GTP and unknown ATP
Elongation takes two GTP per amino acid incorporated
Termination takes one GTP to release
Unknown amount for proofreading/proper folding

Question 27

describe a major way that protein syntehsis is regulated

minor way?

Answer 27

the lifetime of mRNA

at the level of translation

Question 28

what can inhibit protein synthesis?

Answer 28

toxins

Question 29

two cases where protein synthesis is regulated at the level of translation

Answer 29

• at translation initiation controlling the phosphorylation of elongation factor 2 (heme and HCI inhibitor)
• sequence elements within the mRNA structure - enzymes will chew on poly-a tail. once the tail is degraded, in eukaryotes it will come apart from the 5’cap and the mrna will quickly be degraded

Question 30

since protein synthesis is so expensive, its generally controlled at the

Answer 30

initiation step, ussually by regulating the availabilty of eIF-2. when phosphorylated by specific kinases, decreases the rate of synthesis.

Question 31

Ferritin/transferrin is an example of

Answer 31

regulatory elements within the structure of the eukaryotic mRNA

Question 32

interferons

Answer 32

viruses produce dsRNA, which is not normally present in cells. this signals the cell that it is infected and induces secretion of IFN’s.

IFN’s bind to surfaces of other cells and induce expression of two new enzymes that when in the precense of dsRNA, inhibit protein synthesis.

Question 33

What happens when eIF-2 is phosphorylated?

Answer 33

Inhibition of translation

Question 34

The _______ of an mRNA usually contains elements that influence translational efficiency, whereas the _____ usually affects mRNA stability.

Answer 34

5’ UTR = translational efficiency (shine delgano, etc..)

3’UTR - mRNA stability (poly a tail)

Question 35

All mature tRNA molecules have a CCA sequence at their 3’-ends. t/f?

Answer 35

t

Question 36

During protein synthesis, the newly synthesized peptide is covalently bound to

Answer 36

tRNA

Question 37

If you were developing a new antibiotic that specifically targeted bacterial protein synthesis and did not affect eukaryotic protein synthesis, which of the following enzymes, structures, or molecules would be good targets?

Answer 37

an enzyme that formylates the initiator methionine

Question 38

Activation of an amino acid prior to its incorporation into a polypeptide chain

Answer 38

C. involves transient formation of an aminoacyl-AMP intermediate before the amino acid is transferred to tRNA.

Question 39

GTP, which is used during the translation process,

Answer 39

D. is hydrolyzed to GDP, which causes a conformational change of translation factors¸ usually allowing them to dissociate from the ribosome.

Question 40

Interferons cause decreased synthesis of viral proteins by which of the following mechanisms?

Answer 40

D. inhibition of translation of both host and viral proteins by phosphorylation of eIF-2

Question 41

codons are read

Answer 41

5-3

Question 42

anticodons are read

Answer 42

3-5