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Literature DB >> 29695686

[Functional Characterization of Septin Complexes].

K A Akhmetova^1,2,3, I N Chesnokov², S A Fedorova^1,3,4.

Abstract

Septins belong to a family of conserved GTP-binding proteins found in majority of eukaryotic species except for higher plants. Septins form nonpolar complexes that further polymerize into filaments and associate with cell membranes, thus comprising newly acknowledged cytoskeletal system. Septins participate in a variety of cell processes and contribute to various pathophysiological states, including tumorigenesis and neurodegeneration. Here, we review the structural and functional properties of septins and the regulation of their dynamics with special emphasis on the role of septin filaments as a cytoskeletal system and its interaction with actin and microtubule cytoskeletons. We also discuss how septins compartmentalize the cell by forming local protein-anchoring scaffolds and by providing barriers for the lateral diffusion of the membrane proteins.

Entities: CellLine Chemical Disease Gene Species

Keywords: septin complexes; septin filaments; septin scaffold; septins

Mesh：

Substances：

Year: 2018 PMID： 29695686 PMCID： PMC6027748 DOI： 10.7868/S0026898418020015

Source DB: PubMed Journal: Mol Biol (Mosk) ISSN： 0026-8984

134 in total

1. Structural and biochemical properties of Sept7, a unique septin required for filament formation.

Authors: Eldar Zent; Ingrid Vetter; Alfred Wittinghofer
Journal: Biol Chem Date: 2011-08 Impact factor: 3.915

2. Mammalian septins regulate microtubule stability through interaction with the microtubule-binding protein MAP4.

Authors: Brandon E Kremer; Timothy Haystead; Ian G Macara
Journal: Mol Biol Cell Date: 2005-08-10 Impact factor: 4.138

3. Neurotoxicity and behavioral deficits associated with Septin 5 accumulation in dopaminergic neurons.

Authors: Jin H Son; Hibiki Kawamata; Myung S Yoo; Dae J Kim; Young K Lee; Sooyoul Kim; Ted M Dawson; Hui Zhang; David Sulzer; Lichuan Yang; M Flint Beal; Lorraine A Degiorgio; Hong S Chun; Harriet Baker; Chu Peng
Journal: J Neurochem Date: 2005-08 Impact factor: 5.372

4. The Sept4 septin locus is required for sperm terminal differentiation in mice.

Authors: Holger Kissel; Maria-Magdalena Georgescu; Sarit Larisch; Katia Manova; Gary R Hunnicutt; Hermann Steller
Journal: Dev Cell Date: 2005-03 Impact factor: 12.270

5. A role for septins in the interaction between the Listeria monocytogenes INVASION PROTEIN InlB and the Met receptor.

Authors: Serge Mostowy; Sébastien Janel; Claire Forestier; Charles Roduit; Sandor Kasas; Javier Pizarro-Cerdá; Pascale Cossart; Frank Lafont
Journal: Biophys J Date: 2011-04-20 Impact factor: 4.033

6. Disruption of Sept6, a fusion partner gene of MLL, does not affect ontogeny, leukemogenesis induced by MLL-SEPT6, or phenotype induced by the loss of Sept4.

Authors: Ryoichi Ono; Masafumi Ihara; Hideaki Nakajima; Katsutoshi Ozaki; Yuki Kataoka-Fujiwara; Tomohiko Taki; Koh-Ichi Nagata; Masaki Inagaki; Nobuaki Yoshida; Toshio Kitamura; Yasuhide Hayashi; Makoto Kinoshita; Tetsuya Nosaka
Journal: Mol Cell Biol Date: 2005-12 Impact factor: 4.272

7. Dopamine-dependent neurodegeneration in rats induced by viral vector-mediated overexpression of the parkin target protein, CDCrel-1.

Authors: Zhizhong Dong; Boris Ferger; Jean-Charles Paterna; Denise Vogel; Sven Furler; Maribel Osinde; Joram Feldon; Hansruedi Büeler
Journal: Proc Natl Acad Sci U S A Date: 2003-10-06 Impact factor: 11.205

8. Saccharomyces cerevisiae septins: supramolecular organization of heterooligomers and the mechanism of filament assembly.

Authors: Aurelie Bertin; Michael A McMurray; Patricia Grob; Sang-Shin Park; Galo Garcia; Insiyyah Patanwala; Ho-Leung Ng; Tom Alber; Jeremy Thorner; Eva Nogales
Journal: Proc Natl Acad Sci U S A Date: 2008-06-12 Impact factor: 11.205

9. Cellular morphogenesis in the Saccharomyces cerevisiae cell cycle: localization of the CDC3 gene product and the timing of events at the budding site.

Authors: H B Kim; B K Haarer; J R Pringle
Journal: J Cell Biol Date: 1991-02 Impact factor: 10.539

10. Septins localize to microtubules during nutritional limitation in Saccharomyces cerevisiae.

Authors: M Evangelina Pablo-Hernando; Yolanda Arnaiz-Pita; Hiroyuki Tachikawa; Francisco del Rey; Aaron M Neiman; Carlos R Vázquez de Aldana
Journal: BMC Cell Biol Date: 2008-10-01 Impact factor: 4.241

5 in total

Review 1. Targeting and extending the eukaryotic druggable genome with natural products: cytoskeletal targets of natural products.

Authors: April L Risinger; Lin Du
Journal: Nat Prod Rep Date: 2019-11-25 Impact factor: 13.423

2. Epigenome-wide association study on asthma and chronic obstructive pulmonary disease overlap reveals aberrant DNA methylations related to clinical phenotypes.

Authors: Yung-Che Chen; Ying-Huang Tsai; Chin-Chou Wang; Shih-Feng Liu; Ting-Wen Chen; Wen-Feng Fang; Chiu-Ping Lee; Po-Yuan Hsu; Tung-Ying Chao; Chao-Chien Wu; Yu-Feng Wei; Huang-Chih Chang; Chia-Cheng Tsen; Yu-Ping Chang; Meng-Chih Lin
Journal: Sci Rep Date: 2021-03-03 Impact factor: 4.379

3. Identification and Structure Prediction of Human Septin-4 as a Biomarker for Diagnosis of Asthenozoospermic Infertile Patients-Critical Finding Toward Personalized Medicine.

Authors: A S Vickram; K Anbarasu; Palanivelu Jeyanthi; G Gulothungan; R Nanmaran; S Thanigaivel; T B Sridharan; Karunakaran Rohini
Journal: Front Med (Lausanne) Date: 2021-12-03

Review 4. Septins in Infections: Focus on Viruses.

Authors: Thomas Henzi; Nils Lannes; Luis Filgueira
Journal: Pathogens Date: 2021-03-02

5. Septins and a formin have distinct functions in anaphase chiral cortical rotation in the Caenorhabditis elegans zygote.

Authors: Adhham Zaatri; Jenna A Perry; Amy Shaub Maddox
Journal: Mol Biol Cell Date: 2021-05-19 Impact factor: 4.138

5 in total