Gene/Protein
Disease
Symptom
Drug
Enzyme
Compound
Pivot Concepts:
Gene/Protein
Disease
Symptom
Drug
Enzyme
Compound
Target Concepts:
Gene/Protein
Disease
Symptom
Drug
Enzyme
Compound
Query: EC:3.1.30.2 (
endonuclease
)
18,621
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
We have characterized the structural organization and catalytic properties of the large nucleolar group I introns (NaSSU1) of the different Naegleria species N. jamiesoni, N. andersoni, N. italica, and N. gruberi. NaSSU1 consists of three distinct RNA domains: an open reading frame encoding a homing-type
endonuclease
, and a small group I ribozyme (NaGIR1) inserted into the P6 loop of a second group I ribozyme (NaGIR2). The two ribozymes have different functions in RNA splicing and processing. NaGIR1 is an unusual self-cleaving group I ribozyme responsible for intron processing at two internal sites (
IPS1
and IPS2), both close to the 5' end of the open reading frame. This processing is hypothesized to lead to formation of a messenger RNA for the
endonuclease
. Structurally, NaGIR2 is a typical group IC1 ribozyme, catalyzing intron excision and exon ligation reactions. NaGIR2 is responsible for circularization of the excised intron, a reaction that generates full-length RNA circles of wild-type intron. Although it is only distantly related in primary sequence, NaSSU1 RNA has a predicted organization and function very similar to that of the mobile group I intron DiSSU1 of Didymium, the only other group I intron known to encode two ribozymes. We propose that these twin-ribozyme introns define a distinct category of group I introns with a conserved structural organization and function.
...
PMID:Naegleria nucleolar introns contain two group I ribozymes with different functions in RNA splicing and processing. 921 55
The Didymium iridis DiSSU1 intron is located in the nuclear SSU rDNA and has an unusual twin-ribozyme organization. One of the ribozymes (DiGIR2) catalyses intron excision and exon ligation. The other ribozyme (DiGIR1), which along with the
endonuclease
-encoding I-DirI open reading frame (ORF) is inserted in DiGIR2, carries out hydrolysis at internal processing sites (
IPS1
and IPS2) located at its 3' end. Examination of the in vivo expression of DiSSU1 shows that after excision, DiSSU1 is matured further into the I-DirI mRNA by internal DiGIR1-catalysed cleavage upstream of the ORF 5' end, as well as truncation and polyadenylation downstream of the ORF 3' end. A spliceosomal intron, the first to be reported within a group I intron and the rDNA, is removed before the I-DirI mRNA associates with the polysomes. Taken together, our results imply that DiSSU1 uses a unique combination of intron-supplied ribozyme activity and adaptation to the general RNA polymerase II pathway of mRNA expression to allow a protein to be produced from the RNA polymerase I-transcribed rDNA.
...
PMID:In vivo expression of the nucleolar group I intron-encoded I-dirI homing endonuclease involves the removal of a spliceosomal intron. 1002 42
