Interactions of the 5 ' and 3 ' splice sites with intron internal sequences of the yeast mitochondrial group I intron al3 were studied using mutation analysis. The results can be fully explained by the splice guide model in which the splice sites are defined by the Internal Guide Sequence. No evidence was found for an alternative interaction between intron nucleotides preceding the 3 ' splice site and nucleotides in the vicinity of the core region as was found for the Tetrahymena Intron. Our results also suggest that binding of the 5 ' and 3 ' splice site nucleotides to the IGS can not take place simultaneously. The intron must therefore undergo conformatlonal changes as the reaction proceeds from the first step of ...
Accurate and efficient splicing is of crucial importance for highly-transcribed intron-containing ge...
The group I self-splicing introns act at exon-intron junctions without recognizing a particular sequ...
Mitochondria of Saccharomyces cerevisae contain a circular genome of about 80 kbp that encodes rRNAs...
AbstractIt has been recently shown that the schedule of 3′-splicing events for yeast mitochondrial g...
Domain 5 (D5) and domain 6 (D6) are adjacent folded hairpin substructures of self-splicing group II ...
AbstractA model for selection of 3′-splice sites in splicing of RNA precursors containing group I in...
Pre-mRNA splicing is the process by which intervening sequences (introns) are removed from the codin...
Domain 5 (D5) is a highly conserved, largely helical substructure of group II introns that is essent...
The process of gene splicing, which involves the excision of introns from a pre-mRNA and joining of ...
The informational content of 3' splice sites is low and the mechanisms whereby they are selected are...
The involvement of exon sequences in splice site selection was studied in vivo in HeLa cells transfe...
Alternative splicing of group I Introns has been postulated as a possible mechanism that would ensur...
Pre-mRNA splicing is a highly regulated cellular process. The tight cooperation of spliceosome and o...
In pre-mRNA splicing, specific spliceosomal com-ponents recognize key intron sequences, but the mech...
Correct identification of all introns is necessary to discern the protein-coding potential of a euka...
Accurate and efficient splicing is of crucial importance for highly-transcribed intron-containing ge...
The group I self-splicing introns act at exon-intron junctions without recognizing a particular sequ...
Mitochondria of Saccharomyces cerevisae contain a circular genome of about 80 kbp that encodes rRNAs...
AbstractIt has been recently shown that the schedule of 3′-splicing events for yeast mitochondrial g...
Domain 5 (D5) and domain 6 (D6) are adjacent folded hairpin substructures of self-splicing group II ...
AbstractA model for selection of 3′-splice sites in splicing of RNA precursors containing group I in...
Pre-mRNA splicing is the process by which intervening sequences (introns) are removed from the codin...
Domain 5 (D5) is a highly conserved, largely helical substructure of group II introns that is essent...
The process of gene splicing, which involves the excision of introns from a pre-mRNA and joining of ...
The informational content of 3' splice sites is low and the mechanisms whereby they are selected are...
The involvement of exon sequences in splice site selection was studied in vivo in HeLa cells transfe...
Alternative splicing of group I Introns has been postulated as a possible mechanism that would ensur...
Pre-mRNA splicing is a highly regulated cellular process. The tight cooperation of spliceosome and o...
In pre-mRNA splicing, specific spliceosomal com-ponents recognize key intron sequences, but the mech...
Correct identification of all introns is necessary to discern the protein-coding potential of a euka...
Accurate and efficient splicing is of crucial importance for highly-transcribed intron-containing ge...
The group I self-splicing introns act at exon-intron junctions without recognizing a particular sequ...
Mitochondria of Saccharomyces cerevisae contain a circular genome of about 80 kbp that encodes rRNAs...