Transcription - Eukaryotes Flashcards
mRNAs in eukaryotes
Are monocistronic
How eukaryotic genes are ‘interrupted’
Coding sequences (exons) are split by non-coding sequences (introns)
- 5’ end of the first exons + the 3’ end of the last exons will contain an untranslated sequence
- RNA-P transcribe the introns which are then removed
RNA processing
- Initial transcript is modified + spliced
- Modified G residue is added to 5’ end (5’ CAP)
- Introns are spliced out by spliceosome
- A polyA tail added to 3’ end
- Mature RNA is transported from nucleus to cytoplasm for translation
Alternative splicing
- pre-mRNA can be spliced to give slightly different versions of same proteins
- > 80% of human genes are alternatively spliced
- Is responsible for morphological + physiological complexity of mammals
Alternative splicing + the brain - REST
Plays a role in neurodevelopment + brain function e.g.
- In embryo, REST is differentially spliced in neurons (REST4) vs other tissues (REST)
- REST binds to neuronal genes _ stop transcription
- REST4 cannot bind so neuronal genes are transcribed
Alternative splicing + the brain - SnoN
Is differentially spliced to give SnoN1 + SnoN2
- Both found in neurons but in different parts of the brain
- N1 - inner granular layer
- N2 - molecular layer of the cerebellum
