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  • An internal promoter underlies the difference in disease severity between N- and C-terminal truncation mutations of Titin in zebrafish.

An internal promoter underlies the difference in disease severity between N- and C-terminal truncation mutations of Titin in zebrafish.

eLife (2015-10-17)
Jun Zou, Diana Tran, Mai Baalbaki, Ling Fung Tang, Annie Poon, Angelo Pelonero, Erron W Titus, Christiana Yuan, Chenxu Shi, Shruthi Patchava, Elizabeth Halper, Jasmine Garg, Irina Movsesyan, Chaoying Yin, Roland Wu, Lisa D Wilsbacher, Jiandong Liu, Ronald L Hager, Shaun R Coughlin, Martin Jinek, Clive R Pullinger, John P Kane, Daniel O Hart, Pui-Yan Kwok, Rahul C Deo
ABSTRACT

Truncating mutations in the giant sarcomeric protein Titin result in dilated cardiomyopathy and skeletal myopathy. The most severely affected dilated cardiomyopathy patients harbor Titin truncations in the C-terminal two-thirds of the protein, suggesting that mutation position might influence disease mechanism. Using CRISPR/Cas9 technology, we generated six zebrafish lines with Titin truncations in the N-terminal and C-terminal regions. Although all exons were constitutive, C-terminal mutations caused severe myopathy whereas N-terminal mutations demonstrated mild phenotypes. Surprisingly, neither mutation type acted as a dominant negative. Instead, we found a conserved internal promoter at the precise position where divergence in disease severity occurs, with the resulting protein product partially rescuing N-terminal truncations. In addition to its clinical implications, our work may shed light on a long-standing mystery regarding the architecture of the sarcomere.

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Supelco
SYPRO® Ruby Protein Gel Stain