Abstract
Splicing is an important RNA processing step. Genetic variations can alter the splicing process and thereby contribute to the development of various diseases. Alterations of the splicing pattern can be examined by gene expression analyses, by computational tools for predicting the effects of genetic variants on splicing, and by splicing reporter minigene assays for studying alternative splicing events under defined conditions. The minigene assay is based on transient transfection of cells with a vector containing a genomic region of interest cloned between two constitutive exons. Cloning can be accomplished by the use of restriction enzymes or by site-specific recombination using Gateway cloning. The vectors pDESTsplice and pSpliceExpress represent two minigene systems based on Gateway cloning, which are available through the Addgene plasmid repository. In this review, we describe the features of these two splicing reporter minigene systems. Moreover, we provide an overview of studies in which determinants of alternative splicing were investigated by using pDESTsplice or pSpliceExpress. The studies were reviewed with regard to the investigated splicing regulatory events and the experimental strategy to construct and perform a splicing reporter minigene assay. We further elaborate on how analyses on the regulation of RNA splicing offer promising prospects for gaining important insights into disease mechanisms.
Highlights
Splicing is an essential process in transferring information from the DNA level to the protein level [1]
We provide an overview of how the Gateway cloning-based vectors pDESTsplice and pSpliceExpress, originally developed by Kishore et al [4], were used in the literature to obtain a better understanding of the physiological and pathological regulation of mRNA processing
alternative splicing events (ASE) can be causally linked to the genotype of cis-regulatory genetic variants, such as
Summary
Splicing is an essential process in transferring information from the DNA level to the protein level [1]. The splicing process can be influenced by genetic variants, which may contribute to the development of diseases as a consequence [2]. PCR (RT-PCR) assays, and computer-based tools to predict a potential effect of genetic variants and splicing factors on RNA processing [3]. An experimental approach under defined conditions but still relatable to the physiological state is needed to achieve an improved causal understanding of alterations in the splicing pattern of a specific gene. A useful method for this purpose is the splicing reporter minigene assay, an approach to study the role of potential cis-regulatory elements and trans-acting factors involved in pre-mRNA splicing [3]. We provide an overview of how the Gateway cloning-based vectors pDESTsplice and pSpliceExpress, originally developed by Kishore et al [4], were used in the literature to obtain a better understanding of the physiological and pathological regulation of mRNA processing
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