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Cellular compartmentation follows rules: The Schnepf theorem, its consequences and exceptions
Author(s) -
Moog Daniel,
Maier Uwe G.
Publication year - 2017
Publication title -
bioessays
Language(s) - English
Resource type - Journals
SCImago Journal Rank - 2.175
H-Index - 184
eISSN - 1521-1878
pISSN - 0265-9247
DOI - 10.1002/bies.201700030
Subject(s) - organelle , endosymbiosis , correctness , compartment (ship) , biology , microbiology and biotechnology , computer science , computational biology , biochemistry , gene , algorithm , oceanography , plastid , chloroplast , geology
Is the spatial organization of membranes and compartments within cells subjected to any rules? Cellular compartmentation differs between prokaryotic and eukaryotic life, because it is present to a high degree only in eukaryotes. In 1964, Prof. Eberhard Schnepf formulated the compartmentation rule (Schnepf theorem), which posits that a biological membrane, the main physical structure responsible for cellular compartmentation, usually separates a plasmatic form a non‐plasmatic phase. Here we review and re‐investigate the Schnepf theorem by applying the theorem to different cellular structures, from bacterial cells to eukaryotes with their organelles and compartments. In conclusion, we can confirm the general correctness of the Schnepf theorem, noting explicit exceptions only in special cases such as endosymbiosis and parasitism.