mRNA processing: 5' cap and poly (A) tail

polycistronic mRNA

- encode multiple polypeptide chains - have multiple start and stop signals - prokaryotic mRNAs

monocistronic mRNA

- encodes a single polypeptide chain - single start site for protein synthesis - almost all eukaryotic mRNAs

5' capping: role in nuclear pore docking

- mRNP= messenger ribonuclear protein complex; RNA and protein - RNA-binding protein package mRNA for export - some shuttling RNA-binding proteins removed and cytoplasmic proteins bind through the process - RNA helicase in NPC cytoplasmic filaments remodels mRNPs - ribosomes can bind during process (5' end transports first)

Functions of 3' polyadenylation

- protects the mRNA from nuclease attack - aids ribosome recognition of mRNA as molecule to be translated - induces proteins that export the mRNA from the nucleus - used to isolate mRNAs from rRNA or tRNA in the lab (want to examine gene expression -> cRNA)

Draw out a comparison between the processes for synthesis of functional mRNA in prokaryotes and Eukaryotes - what are the biggest differences

- separation b/w processes - 5' cap - polyA tail - intron removal

Prokaryotic RNA processing...why are they the exception to the generalization that RNA requires processing before it can be used

- synthesized in a form read for translation immediately - transcription and translation are not separated by a membrane (may have an influence on each other; could happen simultaneously)

Polyadenylation process

1. CPSF (cleavage and polyadenylation specificity factor) binds AAUAAA 2. CSF binds GU/U to form stable loop by CPSF 3. CFs bind near cleavage site 4. CPSF and CstF form an RNA loop 5. cleavage 6. poly (A) polymerase uses ATP to add tail 7. poly (A) binding proteins; later role in stimulating translation

Roles for 5' caps

1. signaling proper splicing 2. regulation of ribosome binding for translation 3. docking with nuclear pore during export

polyA tail: length

200-250 nts long

polyA tail: name for process and the enzyme that does it

3' polyadenylation - poly (A) polymerase or polyadenylate polymerase - uses ATP as a substrate to add A's to 3' end of pre-mRNA

What sequence must pre-mRNA have to get a tail

AAUAAA

polyA tail: when

Added AFTER transcription at 3' end - known because tail not encoded by the gene; not in DNA

Eukaryotic RNA processing: what does transcription yeild

a precursor mRNA (pre-mRNA) called a primary transcript

5' capping: consist of

a terminal nucleotide, 7-methylguanylate (m7G) in a 5' - 5' linkage with the initial nucleotide of mRNA chain

eIF4E

binds 5' cap in cytoplasm...eukaryotic initiation factor 4E, translation initiation factor

What does pre-mRNA undergo before it can become functional in the cell

chemical changes

Prompts for poly A tail

cleavage of pre-mRNA 10-35 bp downstream addition of adenines to 3' end

splicing

hydrolytic removal of pre-mRNA portions (introns)

when would there not be a polyA tail

mRNAs for major histones (DNA packaging proteins) lack tails (form stem loops) tRNA and rRNA

Definition of RNA processing and "phases"

made up of all chemical modifications necessary to make a mature RNA product 1. addition of a 5' cap (ALL) 2. addition of a 3' poly (A) tail (most at both ends; long) 3. splicing

What is the 5' cap

methylated guanosine at position 7 on the purine ring

what are the two types of RNA

monocistronic mRNA polycistronic mRNA

Draw out the pathway for gene expression in eukaryotic cells. What does this large pathway indicate

mult. ways and levels from beginning to end to influence gene expression

5' capping: protects

protects mRNA from degradation by nucleases that attack RNA at the 5' end

5' capping: serves to

serves in positioning mRNA on ribosome for initiation of translation

5' capping: when

shortly after initiation of RNA synthesis

What is an important distinction between eukaryotic and prokaryotic RNA transport

transcription and translation are kept separate by nuclear membrane. RNA processing in nucleus required to convert pre-mRNAs to mature RNAs