Splicing dysregulation contributes to the pathogenicity of several F9 exonic point variants.

Upendra K KatneniAaron LissDavid HolcombNobuko H KatagiriRyan HuntHaim BarAmra IsmailAnton A KomarChava Kimchi-Sarfaty

Published in: Molecular genetics & genomic medicine (2019)

Synonymous variants primarily cause disease phenotype via splicing dysregulation while additional mechanisms such as translation rate also play an important role. Splicing dysregulation is likely to contribute to the disease phenotype of several non-synonymous variants.

Keyphrases

copy number
escherichia coli
biofilm formation
staphylococcus aureus
pseudomonas aeruginosa
candida albicans