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Centrosome: a Geometrical Model: is the Centrosome a Geometric Molecular Interface That Translates Topogenic Sequences into Precise Cell Locations?
Marco Regolini
Centrosome: a Geometrical Model: is the Centrosome a Geometric Molecular Interface That Translates Topogenic Sequences into Precise Cell Locations?
Marco Regolini
The centrosome, the main microtubule organizing center, because of the 9-fold symmetry and the conserved stereotyped geometry of its centrioles, their peculiar (likely unique) orthogonal configuration in S/G2 phase, and their circumferential polarity (the triplets are different and non-equivalent) may play the role of a molecular interface, composed of two orthogonal "9-graduated centrioles/protractors", that recognizes and decodes topogenic targeting sequences and translates them by connecting each one with the corresponding correctly oriented microtubule: targeted molecular complexes (polarity factors, transmembrane receptors, mRNAs) can be delivered into their expected real locations in the cell. The centrosome operates as a spherical reference system organizer, capable of mapping and wiring the cell cortex, polarizing it in detail (fine-tuned polarity) generating a univocal one-to-one correspondence between centrosomal and cortical compartments. One of the two centrioles, named mother, if reversely rotationally polarized, likely constitutes the base for bilateral symmetry.
Mídia | Livros Paperback Book (Livro de capa flexível e brochura) |
Lançado | 18 de fevereiro de 2014 |
ISBN13 | 9783659520839 |
Editoras | LAP LAMBERT Academic Publishing |
Páginas | 200 |
Dimensões | 150 × 12 × 226 mm · 316 g |
Idioma | German |
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