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Separation of Coiled-Coil Structures in Lamin A/C Is Required for the Elongation of the Filament

Jinsook Ahn, Soyeon Jeong, So‐mi Kang, Inseong Jo, Bum-Joon Park, Nam‐Chul Ha

2020Cells24 citationsDOIOpen Access PDF

Abstract

Intermediate filaments (IFs) commonly have structural elements of a central α-helical coiled-coil domain consisting of coil 1a, coil 1b, coil 2, and their flanking linkers. Recently, the crystal structure of a long lamin A/C fragment was determined and showed detailed features of a tetrameric unit. The structure further suggested a new binding mode between tetramers, designated eA22, where a parallel overlap of coil 1a and coil 2 is the critical interaction. This study investigated the biochemical effects of genetic mutations causing human diseases, focusing on the eA22 interaction. The mutant proteins exhibited either weakened or augmented interactions between coil 1a and coil 2. The ensuing biochemical results indicated that the interaction requires the separation of the coiled-coils in the N-terminal of coil 1a and the C-terminal of coil 2, coupled with the structural transition in the central α-helical rod domain. This study provides insight into the role of coil 1a as a molecular regulator in the elongation of IF proteins.

Topics & Concepts

Coiled coilElectromagnetic coilProtein filamentElongationBiophysicsMutantCrystallographyChemistryMaterials scienceBiologyBiochemistryPhysicsUltimate tensile strengthMetallurgyQuantum mechanicsGeneNuclear Structure and FunctionRNA Research and SplicingSkin and Cellular Biology Research
Separation of Coiled-Coil Structures in Lamin A/C Is Required for the Elongation of the Filament | Litcius