RNA synthesis Flashcards
what are the different types of RNA polymerase enzymes
RNA polymerase I ——-> Most ribosomal RNA (rRNA)
RNA polymerase II ——-> Protein-coding, microRNA (miRNA), non-coding RNA
RNA polymerase III ——-> Transfer RNA (tRNA), 5S rRNA, other small RNAs
Gene
- DNA segment containing instructions for making a particular product
- unit of heredity; contains instructions for an organisms phenotypes
Transcription: The process
-TF2D has a TBP (tata binding protein) which binds to TATA on DNA strand
-TF2A and TF2B bind adjacent to the TF2D and stabilise the complex
-TF2E and TF2H to bind onto the DNA strand, which allowsRNA polymerase 2 (with TF2F and other TF on it) to assemble at the promoter
-this is called a TRANSCRIPTION INITIATION COMPLEX (TIC)
- TF2H pulls the strands apart and phosphorylates RNA polymerase 2.
- Phosphorylated RNA Pol 2 is released from the complex,
moves across DNA to recognise a start codon and begins transcription.
capping
- 5’ end is modified
- Guanine nucleotide is inserted and methylated at carbon position 7 and forms a (5’-5’) triphosphate bridge
- Catalysed by a capping enzyme complex
- Happens as the mRNA is being transcribed
polyadenylation
- the 3’ end is polyadenylated
- Cleavage signal is a specific DNA (RNA?) sequence which is recognised and “cleaved” by a specific endonucleases
- And this is a signal for another enzyme, poly (A) polymerase, which adds a sequence of A nucleotides to the end of the RNA molecule to make a poly A tail
why cap and polyadenylate ?
-Stability (make sure it doesn’t get degraded)
-Integrity prior to translation - Cap protects the 5’ end and the polyadenylated tail protects the 3’ end
-Transport to cytoplasm - only transported when intact
-There are further controls which make sure that the mRNA is intact and stable
Over time the poly A starts degrading
splicing
- binds at the end of the exons
- cleavage at the 5’ (of intron) splice site by a splisosome
- formation of lariat-like intermediate
- cleavage at the 3’ splice site
- ligation (sticking together) of exons
splisosomes
- a type or ribonuclear complex (made up RNA and protein)
alternative splicing
- the ligation of exons can differ and so the sequence of the mRNA also changes
- the proteins may have similar functions as there are common exons, but different function as the sequence of exons differs
“why is alternative splicing important?”
so that more than one protein can be made from a single gene
“why do we need introns?”
so that alternative splicing can take place
export from the nucleus
-relevant proteins bind to the mRNA strand e.g.
~Cap-binding complex - binds whilst in nucleus and is swapped for intiation factors (for translation) outside nucleus
~polyA binding protein is the same inside and out the nucleus.
~exon-junction complex is required for recognition.
-recognition of these enzyme binding complexes allows the mRNA strand allows mRNA to leave via the nuclear pore
“why is this step necessary for export out of the nucleus?”
this is a control step and will therefore ensure that the mRNA strand is stable enough to travel through the cytoplasm to be translated
