RNA Processing

Question 1

RNAs that become part of a protein structure

Answer 1

Ribonucleic Proteins (RNPs)

Question 2

rRNA genes are found in regions with many copies called…?

Answer 2

Tandem Repeats

Question 3

rRNA Processing (6 steps)

Answer 3

1. rRNA gene is transcribed (except for 5S rRNA)
2. Transcript is methylated to identify splice points
3. Methylation signals factors (including snoRNPs) for splicing
4. rRNA is spliced into 28S, 18S, and 5.8S rRNAs, which form 3D structures
5. Several nucleotides are modified by snoRNPs
6. rRNAs are combined with ribosomal proteins, helped by more snoRNPs

Question 4

tRNA Processing (7 steps)

Answer 4

1. Large precursor is transcribed with several tRNA genes
2. tRNAs form secondary structure
3. tRNA is spliced and separated (rough cut)
4. 5’ and 3’ ends are trimmed (fine cut)
5. (Eukaryotes) RNA is spliced out from near the anti-codon
6. 3’ end is modified to accept amino acids (CCA part of prokaryote transcript, added to eukaryotes)
7. Several bases are modified to form mature tRNA

Question 5

Enzyme that helps transport tRNA out of the nucleus

Answer 5

Exportin

Question 6

Charging of tRNAs

Answer 6

Amino acids attached by aminoacyl-tRNA synthetase, used, and then re-charged

Question 7

Synonym for pre-mRNA

Answer 7

heterogeneous nuclear RNA (hnRNA)

Question 8

Pre-mRNA Processing

Answer 8

1. GTP is attached backwards as soon as 5’ end is free, and then methylated to form Guanine Cap
2. End of transcript is recognized and cut, adding a poly-A tail using poly-A polymerase and adding Poly-A binding proteins (PABPs) every 10-20 bases in MOST transcripts
3. Introns are excised out, either spontaneously or using spliceosomes

Question 9

Functions of G-Cap

Answer 9

• Blocks RNase activity at 5’ end
• Cap binding proteins (CBPs) help with initiation of translation
• Signals translation location
• Improves splicing efficiency

Question 10

Functions of Poly-A Tail

Answer 10

• Protects mRNA, as RNases shorten tail

- PABPs help initiate translation

Question 11

Intron Types

Answer 11

Spontaneous - Need no introns
Automatic - Spliced by general spliceosomes
Gene-specific - Spiced only in the presence of specific splicosomes

Question 12

Signals for Spliceosome Activity

Answer 12

1. 5’ splice signal (part of previous exon and the intron) of 9 nucleotides
2. Branch point - YNYYRAY
3. 3’ splice signal (3 nucleotides of intron and 1 of next exon)

Question 13

Spliceosome Mechanism

Answer 13

Composed of proteins and snRNPs; breaks 5’ end, creates lariat at branch point, and then swaps out the 3’ intron with 3’ exon

Question 14

RNA Editing Types

Answer 14

• C to U editing (apolipoprotein B gene, CAA to UAA)
• A to Inosine editing (I pairs like G)
• Addition of U

Question 15

siRNA and miRNA Function

Answer 15

Start as dsRNA, dicer enzyme splices, bind to RNA-induced silencing complex (RISC), which binds to mRNA to stimulate mRNA cleavage or ribosomal blockage