Lecture 34: RNA Translation

Question 1

genetic code

Answer 1

specifies 64 triplet codons in mRNA that correspond to the 20 amin acids and 3 termination codons

Question 2

How many nucleotides in the codon:anticodon base pairing are required to specify the correct tRNA

Answer 2

only 2 of 3

Question 3

what is the thrid nucleotide

Answer 3

in the wobble position

premits noncanonical base pairing (inosine)

Question 4

how many nucleotides in a tRNA molec

Answer 4

70-90

on an L shape conf

Question 5

3 basic features of tRNA

Answer 5

1) triplet anticodon (base pairs with mRNA)
2) amino acid attachment site (at 3’ CCA sequence)
3) multiple contact points outside codon recognized by aminoacyl tRNA synthetases

Question 6

aminoacyl-tRNA synthetases error rate

Answer 6

10-4 of amino acid charging

requires accurate recognition before and after adenylation reaction and proofreading function

Question 7

charging tRNA

Answer 7

process of linking tRNA and amino acid

MUST ATTACH COVALENTLY

Question 8

answer 2 questions before we could link RNA to protein synth

Answer 8

1) what molec serves as the molecular “adaptor” between amino acid pool and mRNA?
2) how many nucleotides in mRNA are needed to specify each amino acid?

Question 9

what was known?

Answer 9

20 aas
GC base pair
A U/T base pair

Question 10

2) how many nucleotides in mRNA are needed to specify each amino acid?

Answer 10

if codon consisted of 2 nucleotides: 4^2= 16, only 16 amino acids

if 3: 4^3= 64 amino acids. have to go with this because 16 amino acids is too small

Question 11

How do we know which nucleotide triplets encode which amino acids?

Answer 11

Marshal Nirenberg
start w/ known tRNA sequences
incubate radioactive tRNA-amino acid adaptors w/ cell extract and artifical template
see which combo makes protein
only did: UUU gave Phe, AAA gave lysine, CCC gave Pro (no GGG)

revealed 3 (61 to go!)

Question 12

what about the other 61 (not UUU, CCC, AAA)

Answer 12

Nirenberg sunthed short RNA templates
incubated w/ known radioactive tRNAs charged w/ amino acid and add ribosomes
identified interactions

determined 54 of the 64 possible codons

Question 13

the final 10 codons

Answer 13

Gobind Khorana
synthed repeating dinucleotide templates
ID’d corresponding polypeptides
depended on 3 “reading frames”

same sequence, depends on where you start reading

Question 14

results of the three experiment lead to the…

Answer 14

Genetic Code

exists in all living orgaisms that synth protein from RNA using ribosomes

Question 15

reading frames

Answer 15

where you start and select units of 3

Question 16

for the most part…code includes…

Answer 16

61 amino acid specified codons

3 termination codons (found in 3’ region of mRNA coding sequence)

Question 17

stop codons

Answer 17

NOT recognized by tRNA!!!

Question 18

Start codon

Answer 18

Met (almost always just a start codon)

Question 19

Which two amino acids are specified by only ONE triplet codon (see genetic code on slide 7)

Answer 19

Met, Trp

Question 20

Which three amino acids are specified by SIX triplet codons (see gentic code on slide 7)

Answer 20

Arg
Leu
Ser

Question 21

What is normally the first codon

Answer 21

AUG (encodes methionine)

Question 22

How many are recognized by tRNA then?

Answer 22

61 of 64 (stop codons are not!)

Question 23

So why use the genetic code?

Answer 23

it lets us predict the primary protein sequence from an RNA transcript (or DNA coding strand)
first codon usually AUG
last usually a stop codon
reading frame must be non-overlapping so once ribosome innitiates, protein sequence is fixed

Question 24

good reading frame

Answer 24

50+ codons w/o stop codon is a good predictor of a protein coding gene

average protein coding sequence for a 30-60 kDA protein requires 350-500 codons!!!!!!!!!!!

Question 25

are Met only used as start codons?

Answer 25

NO!

Question 26

Considering that 61 codons specify amino acids and 3 codons are terminators, what is the frequency of a termination codon in a reading frame BY CHANCE?

Answer 26

3/64= 5%

or 1 in 20

Question 27

Wobble Hypothesis

Answer 27

first 2 nucleotides in codon specify amino acid
THIRD nucleotide in codon is VARRIABLE!

third codon may not have watson-crick base paring… Inosine (I) !!!!!

Question 28

Why is the third nucleotide variable?

Answer 28

if each codon needed a single tRNA w/ corresponding anticodon, we’d need 61 amino acid codons and 61 different tRNAs!

we only have about 30 tRNA molecs, so some tRNA anticodons MUST recognize multiple codons

Question 29

Inosine!

Answer 29

tRNA often has this nucleotide substituded in anticodon loop

generated by deamination of adenine (results from tRNA base modification during tRNA processing)

Question 30

Inosine binding

Answer 30

hydrogen bonds with uracil, cytosine, and adenine

guanine can hydrogen bond with uracil

Question 31

Back to Wobble hypothesis

Answer 31

3’ nucleotide in codon and 5’ nucleotide in anticodon sequence must pair in uncoventional ways (I)

because of convention of writing in 5’ to 3’ direction

Question 32

inosine and wobble hypothesis: when inosine is in 5’ position of tRNA anticodon: 3’ amino acid codon in mRNA can be….

Answer 32

U
C
A
and still form H bonds

Question 33

if 5’ nucleotide in tRNA anticodon is G or U…

Answer 33

it can form H bonds with

U or G (respectively) in 3’ amino acid codon in mRNA

Question 34

so wobble hypotehsis…

Answer 34

uncoventional base pairing

specifies that 3’ amino acid codon in mRNA is the wobble position

Question 35

if first base pair of anticodon is… C

third base of codon can be…

Answer 35

G

Question 36

if first base pair of anticodon is… A

third base of codon can be…

Answer 36

U

Question 37

if first base pair of anticodon is… U

third base of codon can be…

Answer 37

A

G

Question 38

if first base pair of anticodon is… G

third base of codon can be…

Answer 38

U

C

Question 39

if first base pair of anticodon is… I

third base of codon can be…

Answer 39

U
C
A

Question 40

What are two evolutionary advantages of degeneracy in the Gentic Code (wobble)

Answer 40

fewer tRNAs,
so we dont have to carry around as much genetic material

allows more tolerance for mutations, not every base change would result in a mutation!

Question 41

STUDY SLIDE 11

Answer 41

STUDY SLIDE 11

Question 42

so why is the number of tRNA molecules in an organism less than 61?

Answer 42

because dgeneracy allowed by wobble position

however, some amino acids are specified by 4-6 codons

Question 43

anti codons with a C or A in wobble position…

Answer 43

can only read one codon!

Question 44

so… what is the minimum number of tRNA molecs required for 61 codons?

Answer 44

32!

Question 45

tRNA structure

Answer 45

cloverleaf structure (2D)
4 helical regions (extensive RNA-RNA base pairing)
loops
variable arm
Commonalities:
all have CCA 3’ sequences, 3’ OH is where tRNA and amino acids attach covalently (by tRNA syntehtases)

Question 46

tRNA loop names

Answer 46

DHU loop:
T psy C loop
anticodon loop: needs to be positioned so that bases are flipped out and can interact with outside stuff
(variable extra arm)

loop regions are strucural when we make it 3D
make it into the L structure

Question 47

tRNA helical regions

Answer 47

stack

Question 48

modifcation of tRNA molecs

Answer 48

usually 10-15 modified bases

contribute to tRNA substrate binding

Question 49

tRNA for alanine

Answer 49

4 differnt codons encode it
5’IGC3”
I can recognize 3 of the codons
there is also 5’CGC3’ to recognize the 4th Ala codon

so there are 2 diferent anti codon sequences

Question 50

Aminoacyl tRNA synthetases

Answer 50

enzymes that attach amino acid to tRNA

20 of them in most organisms (1 for each of the amino acids) may have to recognize more than one tRNA (since there are 32)

very important: if they do it wrong, amino acid gets incorporated into a protein, this is bad

Question 51

tRNA attachment to amino acid

Answer 51

1) amino acid gets bound to AMP (activated a.a.)
ATP + a.a.= PPi release
2) covalently bind adenylated a.a. to adenosine residue at 3’ end of tRNA, release AMP (released from tRNA?)
3) charged tRNA released

Question 52

energy cots for aminacyl transfer reaction

Answer 52

2 ATP equivalents

Question 53

What happens during protein synth in the aminoacyl tRNA synthetase charges the tRNA with thw WRONG amino acid?

Answer 53

we get the wrong amino acid incorporated into a protein

Question 54

2 important tasks accomplised by covalent attachment of an amino acid to the CCA sequence at the 3’ end of the tRNA

Answer 54

1) links RNA sequence to protein sequence by mathcing tRNA antocodon to right amino acid
2) chemically activiates amino acid to faccilitate peptide bond formation during ribosome-mediate protein synth

more than just the anticodon sequence is checked to make sure the match is right

Question 55

Amino Acid proofreading in aminoacyl tRNA synthetases… what does aminoacyl tRNA synthease contain

Answer 55

activation site
editing site
at least 2 of three proofreading edits

Question 56

3 ways to make sure right amino acids are bound (all use 2 of 3)

Answer 56

size
adenylated AA is hydrolyzed if too big
remove wrong amino acid after charging

Question 57

Edit 1

Answer 57

if amino acid is too big to bind correctly,

Question 58

Edit 2

Answer 58

PRE TRANSFER EDITING

if adenylated Amino acid is too small to fit in editing spot, it is hydrolyzed

Question 59

Edit 3

Answer 59

Post transfer editing
remove incorrect amino acid after charging has occured
hydrolyzation by 3’ site, aa and charged tRNA released

Question 60

which edit MUST take place

Answer 60

edit 1 (based on size)
either 2 or 3 can happen

these take nrg, but is important that they happen to avoid errors

Question 61

practice slide 20

Answer 61

practice slide 20

Question 62

where is the unconventional base? (wobble)

Answer 62

5’ position of ANTIcodon

Question 63

where is the unconventional interaction? (wobble)

Answer 63

between the 5’ ANTIcodon and the 3’ codon

Question 64

other than I, whats the weird base pair

Answer 64

GU base pairs