Week 4

Question 1

What are the 3 steps for Transcription?

Answer 1

1. Initiation
2. Elongation
3. Termination

Question 2

The top strand starting on 5’ end serves as the ______ strand while the bottom strand starting on the 3’ end serves as the template for the transcriptional process.

Answer 2

Coding

Question 3

True or false:

The coding strand is the sense strand

Answer 3

True

Question 4

True or false:

The non-template strand is the sense and coding strand.

Answer 4

True

Question 5

True or false:

The template strand is the sense strand.

Answer 5

False - the template strand is the strand running 3’ to 5’ and is the antisense strand

Question 6

True or False:

mRNA is an exact copy of the antisense strand or template strand.

Answer 6

False

mRNA is an exact copy of the coding strand or sense strand

Question 7

For the process of Transcription, the template strand is the :

Answer 7

Antisense strand (runs in 3’ to 5’ direction) and the mRNA produced will run in 5’ to 3’ direction)

Question 8

Which strand is the mRNA being produced off of, or is read to make the initial mRNA ?

Answer 8

the template strand that is read in 3’ to 5’ direction

• mRNA synthesized in 5’ to 3’ direction
• the mRNA will match the sense strand/coding strand above the one it is reading

Question 9

Transcription is similar to DNA synthesis, except for which 4 things ?

Answer 9

1. Deoxy nucleotides contain ribose as the sugar
2. No primer is needed to initiate process
3. Uracil is added instead of Thymine
4. RNA polymerase is used instead of DNA polymerase

Question 10

Genes are specific regions on a chromosome that are comprised of a : _______ region and a ______ (or promoter region)

Answer 10

Transcribed

Regulatory

Question 11

The transcribed region is _____ of the transcriptional start.

Answer 11

Downstream

Question 12

The transcribed region contains what 4 things:

Answer 12

1. 5’ cap site- required for maturation of mRNA
2. Translation start (AUG)
3. Introns and Exons
4. The poly adenylation site

Question 13

The promoter region is ____ of the transcriptional start and contains regulatory elements.

Answer 13

Upstream

Question 14

What elements does the promoter region upstream of the start in transcription contain?

Answer 14

1. TATA box (in eukaryotes - Pribnow box in Prokaryotes)
2. CAAT or GC box
3. Enhancers or repressors (for eukaryotic transcription)

Question 15

In eukaryotes one gene =

Answer 15

one protein

Question 16

In prokaryotes one gene =

Answer 16

one mRNA that may code for many genes in tandem- polycistronic (several proteins)

Question 17

What are the 4 types of RNA?

Answer 17

1. mRNA
2. tRNA
3. rRNA
4. snRNA

Question 18

What is mRNA transcribed by ?

Answer 18

RNA polymerase II

Question 19

What needs to happen to pre-mRNA before movement in to cytosol for translation ?

Answer 19

5’ capping
Addition of a poly A tail
Splicing (removal of introns)

Question 20

Where does maturation of mRNA take place?

Answer 20

in Nucleus

Question 21

True or False:

Prokaryotic mRNA does not require processing

Answer 21

True - transcription is more coupled to translation than in Eukaryotes

Question 22

What is tRNA transcribed by ?

Answer 22

RNA polymerase III

Question 23

Does eukaryotic tRNA require maturation?

Answer 23

Yes

Question 24

What are the maturation steps needed for tRNA?

Answer 24

1. Removal of introns
2. Addition of the 3’ amino acid attachment site (Trinucleotide CCA)
3. Folds into a clover like structure with 3 loops
4. Modification of bases to generate non-conventional bases

Question 25

What is the purpose of modifying to non-conventional bases in the tRNA during processing inside the nucleus?

Answer 25

Allows for pairing to several codons

Usually in the 3rd base pairing position “wobble hypothesis”

Question 26

What are the functions of tRNA?

Answer 26

Transports amino acids to ribosome during protein translation
Anticodon on tRNA pairs with codon on mRNA and this determines which amino acid is added to polypeptide chain in translation

Question 27

What is the difference between the 3 RNA polymerases ?

Answer 27

All have same mechanisms of action but recognized different promoters

Question 28

What polymerase makes rRNA ?

Answer 28

RNA polymerase 1 and 3

Question 29

What does RNA polymerase 1 make?

Answer 29

rRNAs 28S, 18S, and 5.8S

Question 30

What does RNA polymerase 2 make ?

Answer 30

mRNA and small nuclear RNA (snRNA)

Question 31

what does RNA polymerase 3 make ?

Answer 31

tRNA , 5S rRNA (poly 1 makes 5.8S rRNA), and snRNAs

Question 32

What direction is RNA transcribed and synthesized ?

Answer 32

5’ to 3’ (same direction as in DNA replication)

Question 33

During initiation for Prokaryotes, RNA polymerase combines with _____ ____ (a polypeptide) to create RNA polymerase holoenzyme.

Answer 33

Sigma Factor

Question 34

Sigma factor in prokaryotes will recognize _____ and initiate transcription (Prinbow box).

Answer 34

TATA box

Question 35

where is the TATA box usually for prokaryotes ?

Answer 35

about -10

Question 36

During initiation for Prokaryotes, after the sigma factor binds to TATA box, the RNA polymerase will bind ______ and ______ DNA.

Answer 36

Promoters

Untwist

Question 37

RNA polymerase in Prokaryotes binds loosely to the ____ promoter.

Answer 37

-35 or TTGACA region upstream

Question 38

RNA polymerase in prokaryotes binds tightly to the ____ promoter and untwists

Answer 38

-10 (TATA region or Prinbow box)

Question 39

What are the 2 elements upstream in the Prokaryotic Initiation for RNA transcription process?

Answer 39

1. TATA box (about -10)

2. TTGACA box (about -35)

Question 40

What 5 elements are upstream from the promoter in the prokaryotic initiation process

Answer 40

1. Cap Site (around -2)
2. TATA box (about -26 to -31)
3. BRE (like Transcription factor II - beta) -needed to bind RNA polymerase II (-32 to -37 region)
4. Promoter Proximal elements (can increase or inhibit transcription)
5. Enhancer elements (can be far away)

Question 41

What 4 things must happen for tRNA maturation?

Answer 41

1. Removal of introns
2. Addition of the 3’ amino acid attachment site
3. Folds into a clover like structure
4. Modification of bases to generate non-conventional bases

Question 42

If the tRNA contains an I (inosine) in the anticodon at the wobble position (3), this tRNA may read codons having ___ , ____, or ____ in the third position..

Answer 42

A, U, or C

Question 43

What does rRNA require for maturation?

Answer 43

1. Methylation

2. Incorporation into proteins (numbered subunits)

Question 44

.Does Prokaryotic RNA require maturation?

Answer 44

NO- used immediately in process of translation

Question 45

Which rRNA size is incorporated into the 40S ribosomal subunit/

Answer 45

18S rRNA

Question 46

Which rRNA sizes are incorporated into the 60S subunit?

Answer 46

28S, 5.8S and 5S are put into the 60S ribosomal subunit

Question 47

What combines to make the full 80S ribosome in eukaryotes?

Answer 47

40S subunit and the 60S subunit

Question 48

Where does the reading frame always start/ what will initiate how the frame is read?

Answer 48

AUG - start codon

Methionine

Question 49

where is the amino acid attached to the tRNA located ?

Answer 49

on the 3’ end of the tail

Question 50

small ribosomal subunit is recruited using initiation factors (IF) which recognizes the ______ of mRNA

Answer 50

5’ cap

Question 51

what does the cap binding complex do ?

Answer 51

small ribosomal subunit + 5’ cap of mRNA

- scannes mRNA for the initial AUG needed to start translation

Question 52

where does the initial tRNA carrying methionine attach on the ribosome?

Answer 52

to the P-site ( middle site) - only one to attach here first

Question 53

what happens after methionine tRNA attached to P site ?

Answer 53

GTP is hydrolyzed and the IF factors that found the AUG site (cap binding complex) is released

Question 54

what happens after the small ribosomal subunit is released once methionine is in the P site ?

Answer 54

larger ribosomal subunit is recruited forming the complete ribosome

Question 55

what are the three binding locations in the ribosome ?

Answer 55

A, P, E

Question 56

all tRNA enters through the ____ site

Answer 56

A

Question 57

all tRNA exits the ribosome through the ___ site

Answer 57

E

Question 58

what type of energy does translation elongation require ?

Answer 58

GTP

Question 59

what is the peptidyl transferase reaction ?

Answer 59

the amino acid attached to to tRNA in the P site will be transferred to the tRNA in the A site

Question 60

what is the translocation reaction in the translation elongation pathway ?

Answer 60

the tRNA in P site is transferred to E site and the tRNA in A site will transfer to P site
- E site tRNA is then released and the A site is open again

Question 61

how is translation terminated ?

Answer 61

stop codon is read on the mRNA

Question 62

what is a missense mutation?

Answer 62

nucleotide change that changes the amino acid Incorporated into the protein product

Question 63

what is a nonsense mutation?

Answer 63

nucleotide change that introduces an inappropriate stop codon

Question 64

what is a silent mutation ?

Answer 64

nucleotide change that does not change the amino acid Incorporated into the protein product

Question 65

what is an insertion mutation ?

Answer 65

the introduction of an extra nucleotide(s) that can change the reading frame of the translated protein ( is not a multiple of 3 )

Question 66

what is a deletion mutation?

Answer 66

the removal of nucleotides that can change the reading frame of the translated protein

Question 67

where can proteins be translated?

Answer 67

in cytosolic ribosomes

in ribosomes associated with rough endoplasmic reticulum

Question 68

what is the transcription rate of RNA polymerase after sigma factor is released in prokaryotes?

Answer 68

30 to 50 base pairs a second

Question 69

in prokaryotes , RNA polymerase combined with ____ _____ (a polypeptide ) to create ________.

Answer 69

sigma factor

RNA polymerase holoenzyme

Question 70

RNA polymerase holoenzyme in prokaryotes binds promoters on DNA and untwists it , it binds _______ to the -35 promoter , and ______ to the _____ _____.

Answer 70

loosely
tightly
-10 promoter

Question 71

after ______ of RNA synthesis occurs , sigma factor is released and recycled for other reactions.

Answer 71

8-9 base pairs

Question 72

true or false:

part of the new RNA strand in prokaryotes is DNA-RNA hybrid , but most RNA is displaced as the helix forms

Answer 72

true

Question 73

are eukaryotes poly or monocystronic ?

Answer 73

monocystronic

Question 74

what does snRNA do

Answer 74

forms complexes with proteins used in eukaryotic RNA processing (Exon splicing and intron removal )

Question 75

what is hnRNA ? describe it

Answer 75

heterogeneous nuclear RNA

- mRNA immediately after transcription and 5’ cap and 3’ poly-adenaline tail cap is added

Question 76

which codes , introns or Exons ?

Answer 76

exons

introns are removed and Exons are spliced together inside the nucleus for mRNA maturation

Question 77

what is another name for the GC+TATA box for prokaryotes ?

Answer 77

Pribnow box - attaches right before start transcription site , it attaches to the promoter region

Question 78

RNA polymerase 2 transcribes a precursor-mRNA (hnRNA) that reads a promoter that can be divided into two regions …

Answer 78

1. short sequence called Inr(initiator)

2. TATA box - located at about -30

Question 79

what is the TATA box ?

Answer 79

• one of two core promoter elements for eukaryotes
• around -30
• TATAAAA
• TA bonds easier to denature than GC rich bonds

Question 80

what is the promoter proximal element for eukaryotic DNA ?

Answer 80

located upstream- about -50 to -200
“Cat box “ = CAAT
“ GC box “ = GGGCGG

Question 81

true or false :

different combinations of promoter region and proximal elements like cat box and GC box occur near different genes

Answer 81

true

Question 82

what is required by RNA polymerase in eukaryotes that is similar to sigma factor in function ?

Answer 82

general transcription factors

• numbered to match their RNA polymerase
• binding of GTF and RNA polymerase occurs in a set order in protein coding genes

Question 83

what does splicing do ?

Answer 83

splicing together Exon

introns are removed

Question 84

what does a SNERP protein do ?

Answer 84

1.form a lariat structure at first cleavage site
2. structure bends over itself, carrying the Exon over to the next Exon on other side of structure
at second cleavage site
3. cuts out intron it’s attached to
4. release intron and SNERP is recycled

Question 85

what is the first cleavage site for a SNERP to cut ?

Answer 85

—–Exon - AG (cut) GU ——

Question 86

what happens after the AG-GU is cut by U1 SNERP ?

Answer 86

U1 SNERP bends over backwards to connect GU —— to the Adenine on the U2 SNERP ( required for forming lariat structure

Question 87

what happens after the lariat structure is formed ?

Answer 87

U4,5,6 join on the bound U1 and U2 that were associate by U1 with it’s GU——adenine on U2

Question 88

what does U5 SNERP do ?

Answer 88

once bound , it will cut the intron at the next AG-GU—-intron site

Question 89

after ____ to _____ nucleotides have been synthesized in eukaryotes, the 5’ end of the mRNA is capped 5’ to 5’ with a ________ nucleotide __________

Answer 89

20 to 30
guanine
guanylytransferase

Question 90

what happens after the 5’ to 5’ end is capped with guanine by guanylytransferase?

Answer 90

2 methyl groups (CH3) are added to cap

-essential for the ribosome to bind to the 5’ end of the mRNA

Question 91

50 to 250 _____ nucleotides are added to 3’ end of mRNA . the tail stabilizes the mRNA

Answer 91

Adenine

Question 92

in mRNA maturation, what are the three main parts of the pre-mRNA strand

Answer 92

1. 5’ untranslated region (5’ UTR) or leader sequence
2. coding sequence
3. 3’ untranslated region (3’ UTR) or trailer sequence, may contain info that signals the stability of the particular mRNA

Question 93

in prokaryotes vs. eukaryotes , what do prokaryotes do differently in transcription/translation ? (3 things)

Answer 93

1. mRNA is mature and used directly after transcription
2. mRNA is translated on ribosomes before it is done being transcribed - coupled
3. polycistronic - information for more than one gene in tandem

Question 94

what are the three things eukaryotes do that differ from prokaryotes in translation/transcription?

Answer 94

1. mRA must be matured and processed
2. transcription and translation are not coupled
3. monocistronic - amino acid sequence in mRNA for one gene per mRNA , can modify it later , but is unique

Question 95

what products are transcribed from genes that do not directly make protein ?

Answer 95

1. rRNA
2. tRNA -transfer RNA
3. snRNA (splicesomes and other complexes )

Question 96

what RNA polymerase makes tRNA ?

Answer 96

RNA polymerase 3

Question 97

many tRNAs go through extensive post-transcriptional modification , especially in the ______.

Answer 97

mitochondria

Question 98

tRNA forms clover leaf structures , with _______ base pairing between regions to form 4 stems and 3 loops

Answer 98

complementary

Question 99

loop #____ contains the _____ in tRNA , which recognizes the mRNA codons during translation .

Answer 99

2

anti-codon

Question 100

on the tRNA precursor, where are the three main introns to be removed ?

Answer 100

1. on top of loop #2 - cut out to expose p and OH

2. cut off introns on 5’ and 3’ end of stem with no loop (tails)

Question 101

what happens in loop 2 after the tRNA has been spliced ?

Answer 101

modification of bases and addition of anti-codon units

Question 102

what’s the last step in tRNA maturation before it leaves the nucleus ?

Answer 102

complementary nucleotides added to tail as the anti-codon (added’ end of the stem with no loop so there is a location for amino acid binding )
- tail will match the codon from mRNA

Question 103

what is tRNA unique for with nucleotides?

Answer 103

modified bases on the polypeptide

• ribothymidine
• dihydrouridine
• pseudouridine
• if uracil gets methylated in tRNA it changes into thymine

Question 104

what does the ribosome units for prokaryotes consist of ?

Answer 104

30S + 50S

Question 105

what does the ribosome consist of in eukaryotes?

Answer 105

40S and 60S - to make 80S structure ( additional proteins involved too )

Question 106

true or false :

eukaryotes have many copies of rRNA genes randomly repeated

Answer 106

true

Question 107

what are DNA regions that code for rRNA called ?

Answer 107

ribosomal DNA

Question 108

true or false :

all genes that are transcribed are translated

Answer 108

false

Question 109

what are the first three steps in rRNA synthesis after transcription?

Answer 109

1. 45S rRNA precursor and 5S RNA precursor is formed and combins with proteins within a unit
2. unit is methylated and trimmed
3. separates into 20S and unit and 32S/5S unit

Question 110

what happens after the precursor rRNA has separated into the 20S and 32S/5S units ?

Answer 110

1. 20S becomes 18S
2. 32S/5S becomes 28S/5.8S/5S
3. both units leave at this point from the nucleus

Question 111

in eukaryotes, the cap at the 5’ end of mRNA binds _____ and ______ ribosomal subunit containing tRNA , mRNA is scanned for AUG start codon within the ______ consensus sequence.

Answer 111

eIFs
40S
Kozak

Question 112

for prokaryotes, in the initiation of translation, what does the rRNA bind to and scan ?

Answer 112

shine-dalgamo sequence upstream of AUG binds to complementary sequence in 16S rRNA

Question 113

what are the first amino acid and initiation factors for eukaryotes?

Answer 113

1. methionine
2. eIFs (12 or more)
3. 80S ribosome

Question 114

what is the first amino acid and initiation factors for prokaryote translation?

Answer 114

1. formyl-methionine
2. IFs(3)
3. 70S ribosome (30+50)

Question 115

what is the sequence at the 3’ tail of tRNA that will release OH to form pairing with various AA that don’t require normal watson-crick pairing

Answer 115

ACC

Question 116

how many possible reading frames for mRNA ?

Answer 116

3

Question 117

what type of mutation:
CGA to CGC
makes - Arg to Arg

Answer 117

silent - change that makes same amino acid

Question 118

what type of mutation:
CGA to CCA
makes different amino acid

Answer 118

missense - bad news

Question 119

what type of mutation:
CGA to UGA
arg to Stop

Answer 119

Nonsense - changes to a stop codon - bad news

Question 120

why is DNA code called degenerate code ?

Answer 120

many amino acids have more than 1 triplet codon that will code for that AA

Question 121

in tRNA synthesis , the attached AA needs to be charged on tRNA and uses what enzyme to link it to ACC on 3’ end tail?

Answer 121

aminoacyl tRNA synthase (enzyme )

Question 122

how does aminoacyl tRNA synthase work ?

Answer 122

attaches various AA to ACC on 3’ tail

charged carboxyl group OH reacts with enzyme and ATP to make ester bond linkage

Question 123

where is the AA transfered to by aminoacyl tRNA synthase ?

Answer 123

on either 2’ or 3’ Carbon on the Adenine of ACC with a hydroxyl on the side

Question 124

what happens in translation with the charged ester bond between the AA on tRNA and in making polypeptide ?

Answer 124

the energy from the ester bond is used to make the peptide bond in translation

Question 125

what type of energy is used to make peptide bonds in translation of polypeptide chain ?

Answer 125

GTP that is attached to AA on tRNA is released and energy used to form peptide bond

Question 126

what type of energy is used for tRNA to enter the A site ?

Answer 126

hydrolysis of GTP to GDP

Question 127

what two things are required to move tRNA in and out of the ribosome ?

Answer 127

GTP

Elongation Factor

Question 128

what enzyme is used to transfer the AA in P site to link to AA in A site on ribosome ?

Answer 128

peptidyl transferase

Question 129

what is used to shift P to E and then A to P site on ribosome ?(translocation)

Answer 129

eEF2 and GTP

Question 130

what happens when the tRNA needs to leave the E site ?

Answer 130

eEF2 is released

GTP is used and turns into GDP +P

Question 131

what is used in the first steps of translation , after methionine has found AUG and linked ?

Answer 131

eEF1A and GTP are used up (turns to GDP ) so that new tRNa can enter A site

Question 132

how does the eEF1A get recharged with GTP after it loses a phosphate group after dropping off tRNA in site A

Answer 132

a GTP comes in and donates a P group to eEF2B then remaking it into eEF2A +GTP for use again in another tRNA

Question 133

what is acetylation ?

Answer 133

one acetyl group as below is transfered from one molecule to another

O=C-CH3

Question 134

what is ADP - ribosylation ?

Answer 134

addition of an ADP-ribose moitie to a protein that is often done reversibility for cell functions/ DNA synthesis / apoptosis

Question 135

what is carboxylation​?

Answer 135

addition of a O=C-OH group (COOH) to a protein

Question 136

what is fatty acylation ?

Answer 136

addition of fatty acid to protein

= carboxylic acid with hydrocarbon chain ending in a carboxyl group

Question 137

what is glycosylation?

Answer 137

attachment of sugar moities to AA

Question 138

what is prenylation ?

Answer 138

the addition of hydrophobic compound to a protein or molecule

Question 139

What are the possible wobble combinations for the G base ?

Answer 139

G can pair with C as normal or with U

Question 140

What are the possible wobble combinations for I base ?

Answer 140

C, A, or U can pair with Inosine

Question 141

What is the coding start sequence on DNA for Methionine ?

Answer 141

ATG (it is AUG on mRNA)

Question 142

what is the coding stop sequence on DNA for transcription ?

Answer 142

TGA

Question 143

which strand is read by the RNA polymerase and what direction is it read in?

Answer 143

the template strand (read in 3’ to 5’) as mRNA is synthesized in 5’ to 3’ direction (parallel to the non-coding strand above it that is not read by the RNA polymerase - called the coding strand

Question 144

What is the reason there are 64 possible codons ?

Answer 144

There are four possible bases at each of the three codon positions (4x4x4 = 64)