RNA Processing Flashcards
Differentiate prokaryotic vs eukaryotic RNA processing
Prokaryotes:
- mRNA not modified
Eukaryotes:
- modified extensively in nucleus
NOTE: tRNA and rRNA are modified in BOTH
Why is mRNA Processing evolved in eukaryotes and NOT in prokaryotes ?
- contains exons and introns (spliced out)
- transcription occurs in nucleus (compartmentalized organelles)
- modification protects mRNA before its export into cytoplasm (for translation); prevents degradation of mRNA
What 3 modifications occur during RNA processing ?
- 5’-cap
- Poly-A tail at 3’ end
- Splicing of introns
Function of 5’-cap ?
- protects mRNA and transports from nucleus to cytoplasm
- binds to specific cap-binding complex; ensures mRNA stays attached to RNAP II during transcription
- involved in binding ribosomes to initiate translation
How is 5’ cap attached to mRNA ?
- 7-METHYguanosine attached to EXTRA 5’ nucleotide
- Capping enzymes bind to RNAPII’s phosphorylated CTD
- 5’ - 5’ triphosphate connection between extra nucleotide and 5’ of first nucleotide of mRNA
- 2’-hydroxyls of first and second nucleotides in mRNA are also methylated
NOTE: Cap is attached early in transcription
Function of Poly-A tail
- protein binding site at 3’-end
- protects mRNA from degradation
T or F: Poly-A is encoded in the genome
FALSE; Adenosines are added/ NOT encoded in the genome
Describe addition of Poly-A tail
- recognize sequence (AAUAAA) upstream of where poly A is to be added
- endonuclease CLEAVES transcript
- addition of Adenosines to free 3’-OH (no template required)
Which code for proteins: exons or introns ?
EXONS code for proteins; introns are spliced out
What does it mean when mRNA hybridizes ?
Ovalbumin template DNA hybridizes with mature mRNA transcript
- DNA includes introns = large loops bubble out because introns in mRNA has been spliced out
Which intron groups are self-splicing/ autocatalytic ?
Group I and Group II
Group I and II introns undergo “transesterification.” What does this mean ?
- do not require ATP; instead, trades one bond for another bond
- self-splicing/ autocatalytic
Splicing mechanism of Group I introns
- the 3’-OH of GUANOSINE is a nucleophile (electron donor) and ATTACKS phosphate of 5’ intron
- now the 3’-OH of first exon becomes the second nucleophile ATTACK = releases introns, and connects both exons together
NOTE: 2 phosphodiester bonds formed; 2 are broken; 2 transesterification reactions
Splicing mechanism of Group II introns
- 2-OH of Adenosine nucleotide in INTRON ATTACKS 3’-end of first exon
- 3’-end of first exon is the second nucleophile and ATTACKS 5’-end of second exon = branched lariat intron is released and connects exons together
How does sRNA work ?
ATP consumed at each step:
1. U1 recognizes (exon) AG/GU (intron) sequence
2. U2 recognizes (intron) AG/GU (exon)
— mRNA contains A residue that is excluded from base pairing = “bulge” for later nucleophile attack
3. U4, U5, U6 join spliceosome
4. U1 and U4 dissociate
5. U2, U5, U6 leave with intron lariat; exons are attached
— nucleophile attacks from extra A residue and exon 3’-OH
NOTE: AG/GU is known as “consensus” sequence
sRNA - spliceosomal RNA