To bead or not to bead? Lens-specific intermediate filaments revisited

Spyros D. Georgatos; Fotini Gounari; George Goulielmos; Ueli Aebi

To bead or not to bead? Lens-specific intermediate filaments revisited

Spyros D. Georgatos, Fotini Gounari, George Goulielmos, Ueli Aebi

Immunology

Research output: Contribution to journal › Review article › peer-review

Abstract

For nearly three decades cytoplasmic intermediate filaments (IFs) have been described as 10 nm thick, unbranched ropes radiating from the cell nucleus and extending to the plasma membrane. This stereotype is now being challenged by the discovery and molecular characterization of the beaded filaments (BFs), a novel class of IFs composed of the lens-specific proteins filensin and phakinin. In contrast to 'mainstream' IFs, BFs have a distinctly nodular appearance and form a meshwork underneath the plasma membrane of the lens fiber cells. In vitro assembly studies, expression of filensin and phakinin in cultured cells, and analysis of the corresponding genes reveal that these proteins have evolved from two different subfamilies of IF proteins, thus yielding a unique structure. The new information provides a basis for understanding how the various forms of tissue-specific IF proteins might have developed adopting to the constraints of a specialized environment.

Original language	English (US)
Pages (from-to)	2629-2634
Number of pages	6
Journal	Journal of cell science
Volume	110
Issue number	21
State	Published - 1997

Keywords

Beaded filament
Cytoskeleton
Electron microscopy
Eye lens
Filensin
In vitro assembly
Intermediate filament
Phakinin

ASJC Scopus subject areas

Cell Biology

Cite this

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title = "To bead or not to bead? Lens-specific intermediate filaments revisited",

abstract = "For nearly three decades cytoplasmic intermediate filaments (IFs) have been described as 10 nm thick, unbranched ropes radiating from the cell nucleus and extending to the plasma membrane. This stereotype is now being challenged by the discovery and molecular characterization of the beaded filaments (BFs), a novel class of IFs composed of the lens-specific proteins filensin and phakinin. In contrast to 'mainstream' IFs, BFs have a distinctly nodular appearance and form a meshwork underneath the plasma membrane of the lens fiber cells. In vitro assembly studies, expression of filensin and phakinin in cultured cells, and analysis of the corresponding genes reveal that these proteins have evolved from two different subfamilies of IF proteins, thus yielding a unique structure. The new information provides a basis for understanding how the various forms of tissue-specific IF proteins might have developed adopting to the constraints of a specialized environment.",

keywords = "Beaded filament, Cytoskeleton, Electron microscopy, Eye lens, Filensin, In vitro assembly, Intermediate filament, Phakinin",

author = "Georgatos, {Spyros D.} and Fotini Gounari and George Goulielmos and Ueli Aebi",

year = "1997",

language = "English (US)",

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TY - JOUR

T1 - To bead or not to bead? Lens-specific intermediate filaments revisited

AU - Georgatos, Spyros D.

AU - Gounari, Fotini

AU - Goulielmos, George

AU - Aebi, Ueli

PY - 1997

Y1 - 1997

N2 - For nearly three decades cytoplasmic intermediate filaments (IFs) have been described as 10 nm thick, unbranched ropes radiating from the cell nucleus and extending to the plasma membrane. This stereotype is now being challenged by the discovery and molecular characterization of the beaded filaments (BFs), a novel class of IFs composed of the lens-specific proteins filensin and phakinin. In contrast to 'mainstream' IFs, BFs have a distinctly nodular appearance and form a meshwork underneath the plasma membrane of the lens fiber cells. In vitro assembly studies, expression of filensin and phakinin in cultured cells, and analysis of the corresponding genes reveal that these proteins have evolved from two different subfamilies of IF proteins, thus yielding a unique structure. The new information provides a basis for understanding how the various forms of tissue-specific IF proteins might have developed adopting to the constraints of a specialized environment.

AB - For nearly three decades cytoplasmic intermediate filaments (IFs) have been described as 10 nm thick, unbranched ropes radiating from the cell nucleus and extending to the plasma membrane. This stereotype is now being challenged by the discovery and molecular characterization of the beaded filaments (BFs), a novel class of IFs composed of the lens-specific proteins filensin and phakinin. In contrast to 'mainstream' IFs, BFs have a distinctly nodular appearance and form a meshwork underneath the plasma membrane of the lens fiber cells. In vitro assembly studies, expression of filensin and phakinin in cultured cells, and analysis of the corresponding genes reveal that these proteins have evolved from two different subfamilies of IF proteins, thus yielding a unique structure. The new information provides a basis for understanding how the various forms of tissue-specific IF proteins might have developed adopting to the constraints of a specialized environment.

KW - Beaded filament

KW - Cytoskeleton

KW - Electron microscopy

KW - Eye lens

KW - Filensin

KW - In vitro assembly

KW - Intermediate filament

KW - Phakinin

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M3 - Review article

C2 - 9427381

AN - SCOPUS:0030717391

SN - 0021-9533

VL - 110

SP - 2629

EP - 2634

JO - The Quarterly journal of microscopical science

JF - The Quarterly journal of microscopical science

IS - 21

ER -

To bead or not to bead? Lens-specific intermediate filaments revisited

Abstract

Keywords

ASJC Scopus subject areas

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