Ch. 21: RNA Synthesis, Processing, and Gene Silencing

Question 1

RNA

Answer 1

A biochemical polymer that consists of 4 nucleotides: A, U, C, G

Question 2

Which nucleotide is present in DNA and not RNA?

Answer 2

Thymine

Question 3

What type of structure does RNA prefer?

Answer 3

Secondary structure

Question 4

What kind of bonds can RNA make?

Answer 4

1. RNA can bind to itself: RNA:RNA
2. RNA can base pair with DNA to make RNA-DNA hybrids (Important in translation)

Question 5

What are the three main types of RNA?

Answer 5

1. mRNA
2. tRNA
3. rRNA

Question 6

What is mRNA?

Answer 6

mRNA is messenger RNA (aka carrier RNA)

Question 7

What is the role of mRNA?

Answer 7

To carry protein information from the DNA in a cell’s nucleus to the cell’s cytoplasm

Question 8

What is rRNA?

Answer 8

rRNA is ribosomal RNA, and it is the major constituent of ribosomes

Question 9

What is tRNA?

Answer 9

tRNA is transfer RNA, and it is the adaptor molecules that connects transcription to translation

Question 10

What is the role of tRNA?

Answer 10

It serves as an adaptor between the genetic instructions written in nucleic acid sequences and the protein products encoded in genes.

Question 11

What are the coding portions of DNA?

Answer 11

Exons

Question 12

What are the NON-coding regions of DNA?

Answer 12

Introns

Question 13

What are introns?

Answer 13

Sequences that interrupt RNA that must be removed from the precursor mRNA for transcription and translation to occur

Question 14

Splicesomes

Answer 14

Huge, multimegadalton ribonucleoprotein (RNP) complexes found in eukaryotic nuclei

Question 15

Where do splicesomes assemble?

Answer 15

On the RNA Pol III transcripts, where they excise introns and splice together exons

Question 16

Is the coding sequencing continuous or discontinuous?

Answer 16

Discontinuous

Question 17

In eukaryotic mRNA processing, what happens to the 5’ and 3’ ends?

Answer 17

1. The 5’ end is capped with 7-methyl-guanylate (5’ cap)
2. The 3’ end is extended by a poly A tail

Question 18

What direction does mRNA synthesis occur?

Answer 18

5’ to 3’ direction

Question 19

What does RNA polymerase do?

Answer 19

It unwinds DNA during the synthesis of RNA to create a transcription bubble that contains the enzyme and an RNA:DNA hybrid that is 8 base pairs long

Question 20

What is used as a template for the synthesis of a complementary strand of DNA?

Answer 20

A single strand of DNA

Question 21

Prokaryotic Transcription

Answer 21

Occurs in 3 phases:
1. Initiation
2. Elongation
3. Termination

Question 22

Initiation (Prokaryotes)

Answer 22

Binding of the RNA polymerase to the sigma factor

Question 23

Elongation (Prokaryotes)

Answer 23

Dissociation of the Rho factor from RNA polymerase complex; RNA-DNA helix separates; involves Mg ions

Question 24

Termination (Prokaryotes)

Answer 24

Rho dependent or rho independent

Question 25

Rho Dependent Termination (Prokaryotes)

Answer 25

Requires both cis and trans factors

Question 26

Rho Independent Termination (Prokaryotes)

Answer 26

Does not require any trans- acting factors; depends only on the presence of certain sequences within the RNA

Question 27

What does the Rho protein do in termination?

Answer 27

It associates to a C-rich region in the newly synthesized RNA, destabilizing the RNA-DNA hybrid, releasing RNA Pol and terminating transcription

Question 28

Eukaryotic RNA synthesis

Answer 28

Requires multiple transcription factors

Question 29

TATA box

Answer 29

A DNA sequence that indicates where a genetic sequence can be read and decoded; a type of promoter sequence

Question 30

What is a promotor sequence?

Answer 30

DNA sequences that define where transcription of a gene by RNA polymerase begins

Question 31

Eukaryotic Transcription

Answer 31

Occurs in three phases:
1. Initiation
2. Elongation
3. Termination

Question 32

Initiation (Eukaryotes)

Answer 32

Multiple transcription factors are associated to the DNA template

Question 33

Elongation (Eukaryotes)

Answer 33

CTD region remains hyperphosphorylated

Question 34

Termination (Eukaryotes)

Answer 34

DNA template and trans-acting factors have signals; coupled with the processing of the 3’ end poly A tail of mRNA

Question 35

What does the CTD consist of?

Answer 35

A tandem heptad repeat with the consensus sequence tyrosine-serine-proline-threonine-serine-proline-serine

Question 36

What does the CTD do?

Answer 36

Forms a flexible, tail-like extension from the catalytic core of Pol II with regions that are proximal and distal to the Pol II surface

Question 37

Group 1 and Group 2 Introns

Answer 37

Both are self splicing

Question 38

Group 1 Introns

Answer 38

Catalyze an intrastrand cleavage reaction that removes the intron and ligates the exonic sequences using exogenous guanosine cofactors

Question 39

Group 2 Introns

Answer 39

Do not require exogenous nucleosides to initiation cleavage reactions; forms a lariat structure

Question 40

Cis-acting Splicing

Answer 40

Intramolecular mechanism that removes introns and joins exons that are within the same RNA transcript

Question 41

Trans-acting Splicing

Answer 41

Intermolecular mechanism that removes introns or outrons and joins the exons that are not within the same RNA

Question 42

What does the spliceosome assembly pathway require?

Answer 42

snRNA (small nuclear RNA) nuclear export and snRNP nuclear import steps

Question 43

Spliceosome Assembly

Answer 43

Primary snRNA transcript is capped at the 5’ end, exported to the cytoplasm, assembled into a core snRNP complex containing 7 sm proteins, then imported back into the nucleus, where a functional splicesome complex is generated

Question 44

Spliceosome-Mediated Precursor mRNA Splicing

Answer 44

Consist of 2 esterification steps, which result in the release of an excised lariat intron and the correctly spliced exonic sequences

Question 45

What does the 5’ cap do?

Answer 45

Protects from 5’ to 3’ exonuclease

Question 46

Step 1 of the 5’ Capping Mechanism

Answer 46

The enzyme RTPase hydrolyzes the gamma phosphate on the 5’ terminal nucleotide to generate diphosphate RNA (ppN-RNA)

Question 47

Step 2 of the 5’ Capping Mechanism

Answer 47

GTase adds a GMP moiety to the ppN-RNA to form GppN-RNA

Question 48

Step 3 of the 5’ Capping Mechanism

Answer 48

Guanine-N7 methyltransferase (N7MTase) transfers a methyl group from 5-adenosyl-methionine (Adomet) to the guanine to form 7-methyl-GpppNRNA and release 5-adenosyl-1-homocysteine (AdoHcy)

Question 49

Polyadenylation of Eukaryotic mRNA

Answer 49

In a coupled process, the poly A signal AAUAAA is bound by the cleavage and polyadenylation specificity factor (CPSF); CStF, cleavage stimulation factor, cleavage factors: CFI and CFII
Binds to poly (A) polymerase (PAP), which synthesizes the poly A tail

Question 50

mRNA Decay

Answer 50

Regulated as a mechanism to control protein production

Question 51

When can mRNA decay occur?

Answer 51

1.During transcription
2.Post-transcriptionally

Question 52

Where does mRNA decay occur?

Answer 52

The cytoplasm

Question 53

Why does mRNA occur?

Answer 53

To decrease the expression of a toxic protein
To reduce the abundance of functional proteins by the half-life of their mRNA’s

Question 54

Alternative splicing

Answer 54

An alternative splicing process during gene expression that allows a single gene to code for multiple proteins

Question 55

Dicer (RNAi Pathway)

Answer 55

Cleaves any dsRNA RNA template regardless of the presence of non-canonical base pairing or minor deviations in duplex structure; proceeds siRNA assembled into RISC

Question 56

RISC - RNA-Induced Silencing Complexes (RNAi Pathway)

Answer 56

Mediates the interaction between siRNA and the target mRNA; composed of ribonucleoproteins that can be programmed to target almost any gene for silencing

Question 57

Micro RNA (miRNA)

Answer 57

Short ncRNAs that bind to mRNA and mediate gene silencing

Question 58

What does micro RNA do?

Answer 58

Regulates a variety of cellular processes, such as apoptosis, proliferation, development, and differentiation

Question 59

Prosha

Answer 59

An endoribonuclease that cleaves primary miRNA into precursor miRNA