Sequence specificity of the P6 pairing for splicing of the group I td intron of phage T4

Karen Ehrenman, Renee Schroeder, P. Scott Chandry, Dwight H. Hall, Marlene Belfort

Research output: Contribution to journalArticlepeer-review

Abstract

Seventeen non-directed td- (thymidylate synthase-deficient) splicing-defective mutations isolated in phage T4 were localized within the catalytic core of the ribozyme. All of the mutations occur in conserved structural elements that form part of the td intron core secondary structure. Remarkably, seven of the seventeen independently isolated mutations clustered in the dinucleotide 5′ element (P6[5′] of the putative two-base-pair P6 stem. An analysis of this region was undertaken by site-directed mutagenesis of the plasmid-borne td gene, leading to the following findings: First, the short P6 pairing in the td secondary structure model was verified with appropriate P6[5′] and P6[3′] compensatory mutations. Second, all P6[5′] and P6[3′] mutants are defective in the first step of splicing, guanosine dependent 5′ splice site cleavage, whereas their activity at the 3′ splice site is variable. Third, residual in vitro splicing activity of the mutants altered on only one side of the P6 pairing is correlated with the ability to form an alternative two-base-pair P6 stem. Fourth, the degree to which the compensatory mutants have their splicing activity restored is highly condition-dependent. Restoration of phenotype of the compensatory P6[5′]:[3′] constructs is weak under stringent in vitro conditions as well as in vivo. This sequence specificity is consistent with phylogenetic conservation of the P6 pairing elements in group I introns, and suggests either structural constraints on the P6 stem or a dual function of one or both pairing elements.

Original languageEnglish (US)
Pages (from-to)9147-9163
Number of pages17
JournalNucleic acids research
Volume17
Issue number22
DOIs
StatePublished - Nov 25 1989

ASJC Scopus subject areas

  • Genetics

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