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@ARTICLE{Kster:126894,
author = {S. Köster and D. A. Weitz and R. D. Goldman and U. Aebi
and H. Herrmann$^*$},
title = {{I}ntermediate filament mechanics in vitro and in the cell:
from coiled coils to filaments, fibers and networks.},
journal = {Current opinion in cell biology},
volume = {32},
issn = {0955-0674},
address = {Amsterdam [u.a.]},
publisher = {Elsevier},
reportid = {DKFZ-2017-02922},
pages = {82 - 91},
year = {2015},
abstract = {Intermediate filament proteins form filaments, fibers and
networks both in the cytoplasm and the nucleus of metazoan
cells. Their general structural building plan accommodates
highly varying amino acid sequences to yield extended
dimeric α-helical coiled coils of highly conserved design.
These rod particles are the basic building blocks of
intrinsically flexible, filamentous structures that are able
to resist high mechanical stresses, that is, bending and
stretching to a considerable degree, both in vitro and in
the cell. Biophysical and computer modeling studies are
beginning to unfold detailed structural and mechanical
insights into these major supramolecular assemblies of cell
architecture, not only in the test tube but also in the
cellular and tissue context.},
keywords = {Amino Acids (NLM Chemicals)},
cin = {B065},
ddc = {570},
cid = {I:(DE-He78)B065-20160331},
pnm = {312 - Functional and structural genomics (POF3-312)},
pid = {G:(DE-HGF)POF3-312},
typ = {PUB:(DE-HGF)16},
pubmed = {pmid:25621895},
pmc = {pmc:PMC4355244},
doi = {10.1016/j.ceb.2015.01.001},
url = {https://inrepo02.dkfz.de/record/126894},
}
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