RNA Metabolism

Question 1

What is the first step in gene expression?

Answer 1

Transcribe a gene

Question 2

How does RNA differ from DNA? (3)

Answer 2

o RNA contains a hydroxyl group on C2
o RNA contains Uracil, instead of Thymine in DNA
o RNA is mostly single-stranded

Question 3

RNA is both a ______ and _______ molecule

Answer 3

genetic

catalytic

Question 4

What are the three major classes of RNA?

Answer 4

• mRNA (messenger)
• tRNA (transfer)
• rRNA (ribosomes)

Question 5

RNA is the only macromolecule that functions as both an _______________ and ___________

Answer 5

information transmitter

catalyst

Question 6

What is transcription?

Answer 6

DNA-dependent RNA synthesis (DNA template is needed to synthesize RNA)

Question 7

What is translation?

Answer 7

RNA-dependent protein synthesis (mRNA)

Question 8

What is transcriptome?

Answer 8

Collection of all transcripts (or mRNAs)

Question 9

What is the function of mRNAs?

Answer 9

Encode the amino acid sequences of all the polypeptides found in the cell

Question 10

What is the function of tRNAs?

Answer 10

Match specific amino acids to triplet codons in mRNA during protein synthesis

Question 11

What is the function of rRNAs?

Answer 11

Constituents of ribosomes

Question 12

What is the function of microRNAs? What must they have?

Answer 12

• Regulate the expression of genes via binding to specific nucleotide sequences
• Must have a complementary sequence for their target RNA

Question 13

What are similarities between DNA replication and RNA synthesis? (3)

Answer 13

o Addition of complementary nucleotides
o Requirement of template
o Direction of synthesis: 5’ to 3’

Question 14

What are differences between DNA replication and RNA synthesis?

Answer 14

o RNA synthesis does not require a PRIMER, unlike DNA synthesis
o While DNA replication includes the whole genome as a template, RNA synthesis only uses a SMALL SEGMENT of DNA as a template
o For any given segment of DNA, only ONE STRAND acts as a template in RNA synthesis

Question 15

RNA must distinguish between which DNA strands?

Answer 15

• DNA coding strand

- DNA template strand

Question 16

Which DNA strand is the ALMOST the same as the RNA transcript? What is the minor difference?

Answer 16

• DNA coding strand

- The Ts are replaced by Us

Question 17

Where does RNA synthesis occur? What must be done for synthesis to occur?

Answer 17

• At RNA polymerase

- DNA strand must be unwound, which creates a coding and template strand

Question 18

What is created for a short period of time during RNA synthesis?

Answer 18

DNA/RNA hybrid

Question 19

What did Watson and Crick determine in terms of complementarity of RNA?

Answer 19

Can either be:

• 2 pyrimidines
• 1 purine and 1 pyrimidine
• 2 purines

Question 20

What is the width of DNA? What is type of bonding between nucleotides?

Answer 20

• Width: 1.08 nm

- Hydrogen bonding

Question 21

During RNA synthesis, an incoming nucleotide arrives as a ________

Answer 21

triphosphate

Question 22

What does RNA polymerase require?

Answer 22

• DNA template
• All 4 types of nucleotides
• Magnesium (cofactor)
• Zinc (cofactor)

Question 23

What is the catalytic mechanism of RNA polymerase?

Answer 23

• OH- group at the 3 position of the existing nucleotide attacks the first phosphate group (alpha phosphate)
• Forms a 3’-> 5’ phosphodiester bond

Question 24

The phosphate groups are always present at which carbon?

Answer 24

At the 5th carbon

Question 25

Which strand of DNA becomes the coding strand?

Answer 25

The coding strand may be either; when one acts as a coding strand, the other is a template strand

Question 26

In Prokaryotes, where are promoters located?

Answer 26

Upstream (left)

Question 27

In Prokaryotes, what are -10 and -35 regions called? Why?

Answer 27

• TATA boxes

- Mostly made of Thymine and Adenosine

Question 28

What are the promoter regions composed of in Prokaryotes?

Answer 28

• 2 TATA boxes

- 1 regulatory regions

Question 29

What does RNA polymerase recognize?

Answer 29

The TATA boxes

Question 30

What is the transcription cycle called in Prokaryotes?

Answer 30

Sigma cycle

Question 31

What is the function of the Sigma domain?

Answer 31

• Helps the RNA polymerase find the TATA box
• Begins the unwinding of DNA (initiation of transcription)
• Recognition and initiation

Question 32

What happens once transcription begins in Prokaryotes?

Answer 32

• Sigma domain leaves

- NusA subunit comes in

Question 33

What is the function of the NusA subunit?

Answer 33

• Helps the RNA polymerase move forward

- Elongation and termination

Question 34

When is synthesis terminated in the transcription cycle of Prokaryotes?

Answer 34

When a terminator sequence is present, which causes the departure of NusA

Question 35

In Eukaryotes, what is upstream of the initiator sequence? And, what is upstream of that?

Answer 35

o Upstream: TATA box

o Upstream of the TATA box: several regulatory sequences (complex)

Question 36

Prokaryotes have ____ type of RNA polymerase, while Eukaryotes have _____

Answer 36

one

three

Question 37

What does “Y” mean in terms of nucleic acids? What does “N” mean?

Answer 37

• “Y” means any pyrimidine (C or G)

- “N” means any of the four

Question 38

What is the function RNA polymerase I?

Answer 38

Synthesis of rRNA

Question 39

What is the function to RNA polymerase II?

Answer 39

Synthesis of mRNA and specialized RNA

Question 40

Which eukaryotic RNA polymerase is similar to the prokaryotic RNA polymerase? How many subunits does it contain in Eukaryotes?

Answer 40

• RNA Pol II

- 12 subunits

Question 41

What is the function to RNA polymerase III?

Answer 41

• Synthesis of tRNA
• Synthesis of 5s rRNA
• Synthesis of specialized RNA

Question 42

In Pol II, what binds to the TATA box? What is the TATA box often associated with?

Answer 42

• TBP binds to the TATA box

- TATA box is often associated with TFIIA

Question 43

What happens when TBP binds to the TATA box?

Answer 43

• TFIIB binds to the complex
• RNA Pol II is brought in, which is bound to TFIIF
• Recognizes the initiator sequence and binds

Question 44

Once Pol II binds to the initiator sequence, what is brought in?

Answer 44

TFIIE comes in, which causes TFIIH to enter

Question 45

What is important about the CTD domain in Pol II?

Answer 45

• Contains heptad AA repeats (52 in humans)

- CTD needs to be phosphorylated to function

Question 46

What happens when the pre-initiation complex is formed?

Answer 46

• When TFs are added, pre-initiation complex is formed
• DNA unwinding beings
• CTD domain of Pol II is phosphorylated

Question 47

The unwinding of DNA and the phosphorylation of the CTD domain is regulated by what?

Answer 47

TFIIH

Question 48

What allows promoter escape? What is the consequence?

Answer 48

• When the CTD domain is phosphorylated (RNA Pol II can leave the promoter region)
• Allows it to move forward into the gene region, while synthesizing RNA strands

Question 49

What happens when promoter escape takes place?

Answer 49

• TFIIH and TFIIE leave

- Elongation factors arrive

Question 50

What happens when a termination sequence arrives?

Answer 50

Causes Pol II release and dephosphorylation

Question 51

What specifically recognizes the TATA box

Answer 51

TBP

Question 52

What stabilizes binding of TFIIB and TBP to the promoter?

Answer 52

TFIIA

Question 53

What unwinds DNA at the promoter and phosphorylates Pol II (within the CTD)?

Answer 53

TFIIH

Question 54

What recruits TFIIH?

Answer 54

TFIIE

Question 55

What binds to TBP and recruits Pol II-TFIIF complex?

Answer 55

TFIIB

Question 56

What binds tightly to Pol II and binds to TFIIB?

Answer 56

TFIIF

Question 57

What are three important processes on synthesized RNA?

Answer 57

• 5’ capping
• Intron deletion (splicing)
• Polyadenylation (Poly-A tail) synthesis

Question 58

When does 5’ capping occur?

Answer 58

Very early in the synthesis of RNA (after 20-30 bases)

Question 59

What occurs in association with RNA polymerase?

Answer 59

5’ capping

Question 60

What is the unusual linkage in 5’ capping?

Answer 60

• 5’ to 5’ phosphodiester bond

- 7-methyl-guanosine

Question 61

What is the function of the 5’ cap?

Answer 61

Protects from ribonuclease, which specifically cleave RNA

Question 62

Transcription always occurs with a ______ attached to RNA polymerase II

Answer 62

5’ cap

Question 63

Differentiate introns and exons.

Answer 63

Exons code for proteins, and introns are intermediate sequences

Question 64

What must be spliced out for an mRNA to be synthesized? What is the exception?

Answer 64

• Introns

- Exception: histone genes do not have introns

Question 65

How do introns and exons differentiate in terms of length?

Answer 65

Exons are short (< 1000 bases); Introns are long (up to 20 000 bases)

Question 66

What are the two types of splicing?

Answer 66

• Self-splicing mRNA

- Splicing by spliceosome

Question 67

Give an example of self-splicing mRNA.

Answer 67

Mitochondrial genes

Question 68

Do self-splicing mRNA require ATP?

Answer 68

No since it is non-enzymatic

Question 69

How do self-splicing mRNAs function? What is at the 5’ end and what is at the 3’ end?

Answer 69

• 5’: UpA
• 3’: GpU
  1) OH group of guanosine acts as a nucleophile and attacks the phosphate at the 5’ end
  2) The 3’ OH of the 5’ exon becomes a nucleophile, which completes the reaction
  3) pGpA - G-OH (spliced intron)
  UpU (exon)

Question 70

Group 1 and 2 introns are _________, while group 3 introns are ________

Answer 70

self-splicing

spliced by spliceosomes

Question 71

Group 3 introns occur in which types of mRNA?

Answer 71

Most types of mRNA

Question 72

What is a spliceosome? How many types are they?

Answer 72

• RNA-proteins called snRNP’s (small nuclear RN proteins)

- 5 snRNPs: U1, U2, U4, U5, and U6

Question 73

Group 3 and 4 introns (ex: tRNA) require what?

Answer 73

ATP

Question 74

What is the typical sequence that forms boundaries in splicing by spliceosome?

Answer 74

• 5’: GU

- 3’: AG

Question 75

Where is the splicing sequence in splicing by spliceosome?

Answer 75

Upstream of AG

Question 76

The snRNPs are complementary to what?

Answer 76

mRNA

Question 77

What are the steps to spliceosome splicing?

Answer 77

1) U1 and U2 bind to the sequence (energy dependent)
2) U4/U6 and U5 arrive, but the complex is still inactive
3) U1 and U4 leave, which frees up the GU at the 5’ end
4) G (5’) interacts with A (3’), which creates a loop

Question 78

The creation of a loop by a spliceosome is called what?

Answer 78

Lariat formation

Question 79

What is one of the cleavage signals in polyadenylation?

Answer 79

AAUAAA

Question 80

Which proteins assemble at cleavage sequences?

Answer 80

• Polyadenylate polymerase

- Endonuclease

Question 81

What are the steps to polyadenylation (poly-A tail)?

Answer 81

1) Cleavage: endonuclease comes in and cleaves the long, extra sequence of mRNA
2) Synthesis of Poly-A tail: addition of a sequence of A-repeats

Question 82

What is the function of polyadenylation? When is it performed?

Answer 82

• At the end of transcription
• Protects the mRNA molecule from enzymatic degradation in the cytoplasm
• Aids in transcription termination

Question 83

What does alternative splicing lead to?

Answer 83

Multiple mRNAs from one gene