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Human genomic sequences that inhibit splicing.


ABSTRACT: Mammalian genes are characterized by relatively small exons surrounded by variable lengths of intronic sequence. Sequences similar to the splice signals that define the 5' and 3' boundaries of these exons are also present in abundance throughout the surrounding introns. What causes the real sites to be distinguished from the multitude of pseudosites in pre-mRNA is unclear. Much progress has been made in defining additional sequence elements that enhance the use of particular sites. Less work has been done on sequences that repress the use of particular splice sites. To find additional examples of sequences that inhibit splicing, we searched human genomic DNA libraries for sequences that would inhibit the inclusion of a constitutively spliced exon. Genetic selection experiments suggested that such sequences were common, and we subsequently tested randomly chosen restriction fragments of about 100 bp. When inserted into the central exon of a three-exon minigene, about one in three inhibited inclusion, revealing a high frequency of inhibitory elements in human DNA. In contrast, only 1 in 27 Escherichia coli DNA fragments was inhibitory. Several previously identified silencing elements derived from alternatively spliced exons functioned weakly in this constitutively spliced exon. In contrast, a high-affinity site for U2AF65 strongly inhibited exon inclusion. Together, our results suggest that splicing occurs in a background of repression and, since many of our inhibitors contain splice like signals, we suggest that repression of some pseudosites may occur through an inhibitory arrangement of these sites.

SUBMITTER: Fairbrother WG 

PROVIDER: S-EPMC86212 | biostudies-literature | 2000 Sep

REPOSITORIES: biostudies-literature

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Human genomic sequences that inhibit splicing.

Fairbrother W G WG   Chasin L A LA  

Molecular and cellular biology 20000901 18


Mammalian genes are characterized by relatively small exons surrounded by variable lengths of intronic sequence. Sequences similar to the splice signals that define the 5' and 3' boundaries of these exons are also present in abundance throughout the surrounding introns. What causes the real sites to be distinguished from the multitude of pseudosites in pre-mRNA is unclear. Much progress has been made in defining additional sequence elements that enhance the use of particular sites. Less work has  ...[more]

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