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Other RNA Processing Events
Chapter 16
Ribosomal RNA Processing
• rRNA genes of both eukaryotes and bacteria are transcribed as larger precursors must be processed to yield rRNAs of mature size
- Several different rRNA molecules are embedded in a long precursor and each must be cut out
Eukaryotic rRNA processing
• The rRNA are separated by regions called nontranscribed spacers (NTSs).
• Transcribed spacers - regions of the gene that are transcribed as part of rRNA precursor
- and then removed in processing of precursor to mature rRNA species.
Eukaryotic rRNA Processing
• Ribosomal RNAs are made in eukaryotic nucleoli as precursors that must be processed to release mature rRNAs
• Order of RNAs in the precursor is (fig: 16.2)– 18S– 5.8S– 28S in all eukaryotes– Exact sizes of the mature rRNAs vary from one
species to another
Eukaryotic rRNA Processing
• rRNA processing – nucleolus – small nucleolar RNAs (snoRNAs) + proteins = Small nucleolar ribonucleoproteins (snoRNPs)
• E1, E2 and E3 – interact with distinct regions in pre-rRNA
Bacterial rRNA Processing
• Bacterial rRNA precursors contain tRNA and all 3 rRNA
• rRNA are released from their precursors by RNase III and RNase E– RNase III is the enzyme that performs at least the
initial cleavages that separate the individual large rRNAs
– RNase E is another ribonuclease that is responsible for removing the 5S rRNA from the precursor
Processing Bacterial rRNA
Transfer RNA Processing
• Transfer RNAs are made in all cells as overly long precursors– These must be processed by removing RNA at
both ends
• Nuclei of eukaryotes contain precursors of a single tRNA
• In bacteria - precursor may contain one or more tRNA
- Sometimes a mixture of rRNAs and tRNAs
Cutting apart Polycistronic Precursors
• In processing bacterial RNA that contain more than one tRNA– First step is to cut precursor up into fragments with
just one tRNA each• Cutting between tRNAs in precursors having 2 or more
tRNA
• Cutting between tRNAs and rRNAs in precursors
– Enzyme that performs both chores is the RNase III
Forming Mature 5’-Ends of tRNA• Extra nucleotides are
removed from the 5’-ends of pre-tRNA in one step by an endonucleolytic cleavage catalyzed by RNase P
• RNase P from bacteria and eukaryotic nuclei have a catalytic RNA subunit called M1 RNA
Processing 3’-Ends of tRNA
RNase D, RNase BN, RNase T, RNase PH, RNase II and polynucleotide phosphorylase (PNPase)
Forming mature 3’-Ends of tRNA
• RNase II and polynucleotide phosphorylase cooperate – To remove most of extra nucleotides at the end of
a tRNA precursor
• RNases PH and T are most active in removing the last 2 nucleotides from RNA– RNase T is the major participant in removing very
last nucleotide
Trans-Splicing
• Splicing that occurs in all eukaryotic species is called cis-splicing because it involves 2 or more exons that exist together in the same gene
• trans-splicing has exons that are not part of the same gene at all - may not even be on the same chromosome
The Mechanism of Trans-Splicing
• Trans-splicing occurs in several organisms– Parasitic and free-living worms– First discovered in trypanosomes
• Trypanosome mRNA are formed by trans-splicing between a short leader exon and any one of many independent coding exons
Trans-Splicing
Trans-Splicing Scheme• Branchpoint adenosine
within the half-intron attached to the coding exon attacks the junction between the leader exon and its half-intron
• Creates a Y-shaped intron-exon intermediate analogous to the lariat intermediate
Mechanism of Editing
• Unedited transcripts can be found along with edited versions of the same mRNAs
• Editing occurs in the poly(A) tails of mRNAs that are added posttranscriptionally
• Partially edited transcripts have been isolated - always edited at their 3’-ends but not at their 5’-ends
Role of gRNA in Editing
• Guide RNAs (gRNA) could direct the insertion and deletion of UMPs over a stretch of nucleotides in the mRNA
• When editing is done, gRNA could hybridize near the 5’-end of newly edited region
Guide RNA Editing
• 5’-end of the first gRNA hybridizes to an unedited region at the 3’-border of editing I the pre-mRNA
• The 5’-ends of the rest of the gRNAs hybridize to edited regions progressively closer to the 5’-end of the region to be edited in the pre-mRNA
• All of these gRNAs provide A’s and G’s as templates for the incorporation of U’s missing from the mRNA
Mechanism of Removing U’s
• Sometimes the gRNA is missing an A or G to pair with a U in the mRNA– In this case the U is removed
• Mechanism of removing U’s involves– Cutting pre-mRNA just beyond U to be removed
– Removal of U by exonuclease
– Ligating the two pieces of pre-mRNA together
• Mechanism of adding U’s uses same first and last step
• Middle step involves addition of one or more U’s from UTP by TUTase
RNA Interference
• RNA interference occurs when a cell encounters dsRNA from:– Virus
– Transposon
– Transgene
• Trigger dsRNA is degraded into 21-23 nt fragments (siRNAs) by an RNase III-like enzyme called Dicer
• Double-stranded siRNA, with Dicer and Dicer-associated protein R2D2 form a complex called complex B
Complex B
• Complex B delivers the siRNA to the RISC loading complex (RLC)
– Separates 2 strands of siRNA
– Transfers guide strand to RNA-induced silencing complex (RISC) that introduces a protein- Ago2
Complex B
• The guide strand of siRNA base-pairs with target mRNA in the active site of PIWI domain of Ago2– Ago2 is an RNase H-like enzyme known as a slicer
– Slicer cleaves the target mRNA in middle of the region of its base-pairing with the siRNA
– ATP-dependent step has cleaved RNA ejected from RISC which then accepts a new molecule of mRNA for degradation
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