The dynamin middle domain is critical for tetramerization and higher-order self-assembly.

The dynamin middle domain is critical for tetramerization and higher-order self-assembly. Research Abstract Details 

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The dynamin middle domain is critical for tetramerization and higher-order self-assembly. Abstract Text:

Rajesh Ramachandran,Mark Surka,Joshua S Chappie,Douglas M Fowler,Ted R Foss,Byeong Doo Song,Sandra L Schmid,

The large multidomain GTPase dynamin self-assembles around the necks of deeply invaginated coated pits at the plasma membrane and catalyzes vesicle scission by mechanisms that are not yet completely understood. Although a structural role for the 'middle' domain in dynamin function has been suggested, it has not been experimentally established. Furthermore, it is not clear whether this putative function pertains to dynamin structure in the unassembled state or to its higher-order self-assembly or both. Here, we demonstrate that two mutations in this domain, R361S and R399A, disrupt the tetrameric structure of dynamin in the unassembled state and impair its ability to stably bind to and nucleate higher-order self-assembly on membranes. Consequently, these mutations also impair dynamin's assembly-dependent stimulated GTPase activity.

The dynamin middle domain is critical for tetramerization and higher-order self-assembly. Publishing Authors By Initials

R Ramachandran,M Surka,JS Chappie,DM Fowler,TR Foss,BD Song,SL Schmid,

For similar biochemical phenomena, metabolism, and nutrition: biochemical phenomena: molecular structure: molecular conformation: protein conformation: protein structure, tertiary research abstracts see: biochemical phenomena, metabolism, and nutrition: biochemical phenomena: molecular structure: molecular conformation: protein conformation: protein structure, tertiary research

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The dynamin middle domain is critical for tetramerization and higher-order self-assembly. Journal Published:

PUBLICATION TYPE: Research Support, Non-U.S. Gov

Journal: The EMBO journal

VOLUME: 26

Page Numbers: 559-66

Journal Abbreviation: EMBO J.

ISSN: 0261-4189

DAY: 14

MONTH: 12

YEAR: 2006

The dynamin middle domain is critical for tetramerization and higher-order self-assembly. Information

Number of References:

LANGUAGE: eng

NlmUniqueID: 8208664

The dynamin middle domain is critical for tetramerization and higher-order self-assembly. Keywords Mesh Terms:

KEYWORDS: Protein Structure, Tertiary

MESH TERMS: chemistry

Chemical & Substance for Abstract: The dynamin middle domain is critical for tetramerization and higher-order self-assembly. Information

Substance Name: GTP Phosphohydrolases

Registry Number: EC 3.6.1.-

Grant and Affiliation Information for The dynamin middle domain is critical for tetramerization and higher-order self-assembly.

AFFILIATION: Department of Cell Biology, The Scripps Research Institute, La Jolla, CA 92037, USA.

Country: England

AGENCY: United States NCI

GRANT: R21.CA104046

ACRONYM: CA

MEDLINETA: EMBO J

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