Assembly mechanisms of the bacterial cytoskeletal protein FilP

Ala Javadi; Niklas Söderholm; Annelie Olofsson; Klas Flärdh; Linda Sandblad

doi:10.26508/lsa.201800290

Assembly mechanisms of the bacterial cytoskeletal protein FilP

Ala Javadi, Niklas Söderholm, Annelie Olofsson, Klas Flärdh, Linda Sandblad

Microbiology Group

Umeå University

Research output: Contribution to journal › Article › peer-review

Abstract

Despite low-sequence homology, the intermediate filament (IF)-like protein FilP from Streptomyces coelicolor displays structural and biochemical similarities to the metazoan nuclear IF lamin. FilP, like IF proteins, is composed of central coiled-coil domains interrupted by short linkers and flanked by head and tail domains. FilP polymerizes into repetitive filament bundles with paracrystalline properties. However, the cations Na+ and K+ are found to induce the formation of a FilP hexagonal meshwork with the same 60-nm repetitive unit as the filaments. Studies of polymerization kinetics, in combination with EM techniques, enabled visualization of the basic building block-a transiently soluble rod-shaped FilP molecule-and its assembly into protofilaments and filament bundles. Cryoelectron tomography provided a 3D view of the FilP bundle structure and an original assembly model of an IF-like protein of prokaryotic origin, thereby enabling a comparison with the assembly of metazoan IF.

Original language	English
Journal	Life Science Alliance
Volume	2
Issue number	3
DOIs	https://doi.org/10.26508/lsa.201800290
Publication status	Published - 2019

Subject classification (UKÄ)

Structural Biology

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10.26508/lsa.201800290

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title = "Assembly mechanisms of the bacterial cytoskeletal protein FilP",

abstract = "Despite low-sequence homology, the intermediate filament (IF)-like protein FilP from Streptomyces coelicolor displays structural and biochemical similarities to the metazoan nuclear IF lamin. FilP, like IF proteins, is composed of central coiled-coil domains interrupted by short linkers and flanked by head and tail domains. FilP polymerizes into repetitive filament bundles with paracrystalline properties. However, the cations Na+ and K+ are found to induce the formation of a FilP hexagonal meshwork with the same 60-nm repetitive unit as the filaments. Studies of polymerization kinetics, in combination with EM techniques, enabled visualization of the basic building block-a transiently soluble rod-shaped FilP molecule-and its assembly into protofilaments and filament bundles. Cryoelectron tomography provided a 3D view of the FilP bundle structure and an original assembly model of an IF-like protein of prokaryotic origin, thereby enabling a comparison with the assembly of metazoan IF.",

author = "Ala Javadi and Niklas S{\"o}derholm and Annelie Olofsson and Klas Fl{\"a}rdh and Linda Sandblad",

year = "2019",

doi = "10.26508/lsa.201800290",

language = "English",

volume = "2",

journal = "Life Science Alliance",

issn = "2575-1077",

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TY - JOUR

T1 - Assembly mechanisms of the bacterial cytoskeletal protein FilP

AU - Javadi, Ala

AU - Söderholm, Niklas

AU - Olofsson, Annelie

AU - Flärdh, Klas

AU - Sandblad, Linda

PY - 2019

Y1 - 2019

N2 - Despite low-sequence homology, the intermediate filament (IF)-like protein FilP from Streptomyces coelicolor displays structural and biochemical similarities to the metazoan nuclear IF lamin. FilP, like IF proteins, is composed of central coiled-coil domains interrupted by short linkers and flanked by head and tail domains. FilP polymerizes into repetitive filament bundles with paracrystalline properties. However, the cations Na+ and K+ are found to induce the formation of a FilP hexagonal meshwork with the same 60-nm repetitive unit as the filaments. Studies of polymerization kinetics, in combination with EM techniques, enabled visualization of the basic building block-a transiently soluble rod-shaped FilP molecule-and its assembly into protofilaments and filament bundles. Cryoelectron tomography provided a 3D view of the FilP bundle structure and an original assembly model of an IF-like protein of prokaryotic origin, thereby enabling a comparison with the assembly of metazoan IF.

AB - Despite low-sequence homology, the intermediate filament (IF)-like protein FilP from Streptomyces coelicolor displays structural and biochemical similarities to the metazoan nuclear IF lamin. FilP, like IF proteins, is composed of central coiled-coil domains interrupted by short linkers and flanked by head and tail domains. FilP polymerizes into repetitive filament bundles with paracrystalline properties. However, the cations Na+ and K+ are found to induce the formation of a FilP hexagonal meshwork with the same 60-nm repetitive unit as the filaments. Studies of polymerization kinetics, in combination with EM techniques, enabled visualization of the basic building block-a transiently soluble rod-shaped FilP molecule-and its assembly into protofilaments and filament bundles. Cryoelectron tomography provided a 3D view of the FilP bundle structure and an original assembly model of an IF-like protein of prokaryotic origin, thereby enabling a comparison with the assembly of metazoan IF.

U2 - 10.26508/lsa.201800290

DO - 10.26508/lsa.201800290

M3 - Article

C2 - 31243049

SN - 2575-1077

VL - 2

JO - Life Science Alliance

JF - Life Science Alliance

IS - 3

ER -

Assembly mechanisms of the bacterial cytoskeletal protein FilP

Abstract

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