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W3199693995 abstract "Abstract Splicing is a highly regulated process that depends on numerous factors. It is particularly challenging to quantitatively predict how a mutation will affect precursor messenger RNA (mRNA) structure and the subsequent functional consequences. Here we use a novel Mutational Profiling (-MaP) methodology to obtain highly reproducible endogenous precursor and mature mRNA structural probing data in vivo. We use these data to estimate Boltzmann suboptimal ensembles, and predict the structural consequences of mutations on precursor mRNA structure. Together with a structural analysis of recent cryo-EM spliceosome structures at different stages of the splicing cycle, we determined that the footprint of the B act complex on precursor mRNA is best able to predict splicing outcomes for exon 10 inclusion of the alternatively spliced MAPT gene. However, structure alone only achieves 74% accuracy. We therefore developed a β-regression weighting framework that incorporates splice site strength, structure and exonic/intronic splicing regulatory elements which together achieves 90% accuracy for 47 known and six newly discovered splice-altering variants. This combined experimental/computational framework represents a path forward for accurate prediction of splicing related disease-causing variants." @default.
W3199693995 created "2021-09-27" @default.
W3199693995 creator A5002272329 @default.
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W3199693995 creator A5026069604 @default.
W3199693995 creator A5029802627 @default.
W3199693995 creator A5078808712 @default.
W3199693995 date "2021-09-13" @default.
W3199693995 modified "2023-09-26" @default.
W3199693995 title "Quantitative prediction of variant effects on alternative splicing using endogenous pre-messenger RNA structure probing" @default.
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W3199693995 doi "https://doi.org/10.1101/2021.09.13.460117" @default.
W3199693995 hasPublicationYear "2021" @default.
W3199693995 type Work @default.
W3199693995 sameAs 3199693995 @default.