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A revised order of subunits in mammalian septin complexes
Author(s) -
Mendonça Deborah C.,
Macedo Joci N.,
Guimarães Samuel L.,
Barroso da Silva Fernando L.,
Cassago Alexandre,
Garratt Richard C.,
Portugal Rodrigo V.,
Araujo Ana P. U.
Publication year - 2019
Publication title -
cytoskeleton
Language(s) - English
Resource type - Journals
SCImago Journal Rank - 0.95
H-Index - 86
eISSN - 1949-3592
pISSN - 1949-3584
DOI - 10.1002/cm.21569
Subject(s) - septin , biology , cytokinesis , microbiology and biotechnology , protein filament , cell , biochemistry , cell division
Septins are GTP binding proteins considered to be novel components of the cytoskeleton. They polymerize into filaments based on hexameric or octameric core particles in which two copies of either three or four different septins, respectively, assemble into a specific sequence. Viable combinations of the 13 human septins are believed to obey substitution rules in which the different septins involved must come from distinct subgroups. The hexameric assembly, for example, has been reported to be SEPT7–SEPT6–SEPT2–SEPT2–SEPT6–SEPT7. Here, we have replaced SEPT2 by SEPT5 according to the substitution rules and used transmission electron microscopy to demonstrate that the resulting recombinant complex assembles into hexameric particles which are inverted with respect that predicted previously. MBP‐SEPT5 constructs and immunostaining show that SEPT5 occupies the terminal positions of the hexamer. We further show that this is also true for the assembly including SEPT2, in direct contradiction with that reported previously. Consequently, both complexes expose an NC interface, as reported for yeast, which we show to be more susceptible to high salt concentrations. The correct assembly for the canonical combination of septins 2‐6‐7 is therefore established to be SEPT2–SEPT6–SEPT7–SEPT7–SEPT6–SEPT2, implying the need for revision of the mechanisms involved in filament assembly.

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