Diverse regulation of 3′ splice site usage

AbstractMost protein encoding genes in eukaryotes contain introns which are interwoven with exons. After transcription, introns need to be removed in order to generate the final mRNA which can be translated into an amino acid sequence. Precise excision of introns by the spliceosome requires conserved dinucleotides which mark the splice sites. However, there are variations of the highly conserved combination of GT at the 5’ end and AG at the 3’ end of an intron in the genome. GC-AG and AT-AC are two major non-canonical splice site combinations which have been known for years. During the last years, various minor non-canonical splice site combinations were detected with numerous dinucleotide permutations. Here we expand systematic investigations of non-canonical splice site combinations in plants to all eukaryotes by analysing fungal and animal genome sequences. Comparisons of splice site combinations between these three kingdoms revealed several differences such as a substantially increased CT-AC frequency in fungal genome sequences. Canonical GT-AG splice site combinations in antisense transcripts could be one explanation for this observation. In addition, high numbers of GA-AG splice site combinations were observed in Eurytemora affinis and Oikopleura dioica. A variant in one U1 snRNA isoform might allow the recognition of GA as 5’ splice site. In depth investigation of splice site usage based on RNA-Seq read mappings indicates a generally higher flexibility of the 3’ splice site compared to the 5’ splice site across animals, fungi, and plants.

Download Full-text

Base pairing between the 3' exon and an internal guide sequence increases 3' splice site specificity in the Tetrahymena self-splicing rRNA intron

Molecular and Cellular Biology ◽

10.1128/mcb.10.6.2960-2965.1990 ◽

1990 ◽

Vol 10 (6) ◽

pp. 2960-2965

Author(s):

E R Suh ◽

R B Waring

Keyword(s):

Splice Site ◽

Site Specificity ◽

Group I Introns ◽

Base Pairing ◽

Group I ◽

Guide Sequence ◽

Compensatory Mutations ◽

Self Splicing ◽

Splice Site Usage ◽

Selection Of

It has been proposed that recognition of the 3' splice site in many group I introns involves base pairing between the start of the 3' exon and a region of the intron known as the internal guide sequence (R. W. Davies, R. B. Waring, J. Ray, T. A. Brown, and C. Scazzocchio, Nature [London] 300:719-724, 1982). We have examined this hypothesis, using the self-splicing rRNA intron from Tetrahymena thermophila. Mutations in the 3' exon that weaken this proposed pairing increased use of a downstream cryptic 3' splice site. Compensatory mutations in the guide sequence that restore this pairing resulted in even stronger selection of the normal 3' splice site. These changes in 3' splice site usage were more pronounced in the background of a mutation (414A) which resulted in an adenine instead of a guanine being the last base of the intron. These results show that the proposed pairing (P10) plays an important role in ensuring that cryptic 3' splice sites are selected against. Surprisingly, the 414A mutation alone did not result in activation of the cryptic 3' splice site.

Download Full-text

132 Identification of New Patterns of Splice Site Usage by Transcripts of HIV-1 Primary Isolates of Diverse Subtypes

JAIDS Journal of Acquired Immune Deficiency Syndromes ◽

10.1097/01.qai.0000397319.32460.a0 ◽

2011 ◽

Vol 56 ◽

pp. 53

Author(s):

Elena Delgado ◽

Cristina Carrera ◽

Paloma Nebreda ◽

Michael M Thomson

Keyword(s):

Splice Site ◽

Hiv 1 ◽

Splice Site Usage

Download Full-text

Base pairing between the 3' exon and an internal guide sequence increases 3' splice site specificity in the Tetrahymena self-splicing rRNA intron.

Molecular and Cellular Biology ◽

10.1128/mcb.10.6.2960 ◽

1990 ◽

Vol 10 (6) ◽

pp. 2960-2965 ◽

Cited By ~ 29

Author(s):

E R Suh ◽

R B Waring

Keyword(s):

Splice Site ◽

Site Specificity ◽

Group I Introns ◽

Base Pairing ◽

Group I ◽

Guide Sequence ◽

Compensatory Mutations ◽

Self Splicing ◽

Splice Site Usage ◽

Selection Of

It has been proposed that recognition of the 3' splice site in many group I introns involves base pairing between the start of the 3' exon and a region of the intron known as the internal guide sequence (R. W. Davies, R. B. Waring, J. Ray, T. A. Brown, and C. Scazzocchio, Nature [London] 300:719-724, 1982). We have examined this hypothesis, using the self-splicing rRNA intron from Tetrahymena thermophila. Mutations in the 3' exon that weaken this proposed pairing increased use of a downstream cryptic 3' splice site. Compensatory mutations in the guide sequence that restore this pairing resulted in even stronger selection of the normal 3' splice site. These changes in 3' splice site usage were more pronounced in the background of a mutation (414A) which resulted in an adenine instead of a guanine being the last base of the intron. These results show that the proposed pairing (P10) plays an important role in ensuring that cryptic 3' splice sites are selected against. Surprisingly, the 414A mutation alone did not result in activation of the cryptic 3' splice site.

Download Full-text