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Universal and Unique Features of Kinesin Motors: Insights from a Comparison of Fungal and Animal Conventional Kinesins
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J. Kirchner
Veröffentlicht/Copyright:
1. Juni 2005
Abstract
Kinesins are microtubule motors that use the energy derived from the hydrolysis of ATP to move unidirectionally along microtubules. The founding member of this still growing superfamily is conventional kinesin, a dimeric motor that moves processively towards the plus end of microtubules. Within the family of conventional kinesins, two groups can be distinguished to date, one derived from animal species, and one originating from filamentous fungi. So far no conventional kinesin has been reported from plant cells. Fungal and animal conventional kinesins differ in several respects, both in terms of their primary sequence and their physiological properties. Thus all fungal conventional kinesins move at velocities that are 4–5 times higher than those of animal conventional kinesins, and all of them appear to lack associated light chains. Both groups of motors are characterized by a number of group-specific sequence features which are considered here with respect to their functional importance. Animal and fungal conventional kinesins also share a number of sequence characteristics which point to common principles of motor function. The overall domain organization is remarkably similar. A C-terminal sequence motif common to all kinesins, which constitutes the only region of high homology outside the motor domain, suggests common principles of cargo association in both groups of motors. Consideration of the differences of, and similarities between, fungal and animal kinesins offers novel possibilities for experimentation (e. g., by constructing chimeras) that can be expected to contribute to our understanding of motor function.
:
Published Online: 2005-06-01
Published in Print: 1999-07-01
Copyright © 1999 by Walter de Gruyter GmbH & Co. KG
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Artikel in diesem Heft
- Paul Nurse Felix Hoppe-Seyler Lecturer 1999
- Cyclin Dependent Kinases and Regulation of the Fission Yeast Cell Cycle
- Paper of the Year 1998
- Autonomous Regulation in Mammalian Mitochondrial DNA Transcription
- Prospects for the Precise Engineering of Plant Genomes by Homologous Recombination
- The Glycosphingolipidoses from Disease to Basic Principles of Metabolism
- The Dual Role of Lipopolysaccharide as Effector and Target Molecule
- A Unified Mechanism of Enzymatic Synthesis of Two Calcium Messengers: Cyclic ADP-Ribose and NAADP
- The Tranquilizing Injection of Yersinia Proteins: A Pathogens Strategy to Resist Host Defense
- IL-6 Type Cytokine Receptor Complexes: Hexamer, Tetramer or Both?
- Genetically Engineered and Synthetic Allergen Derivatives: Candidates for Vaccination against Type I Allergy
- Molecular Farming of Recombinant Antibodies in Plants
- Chimeric Restriction Enzymes: What Is Next?
- Viroids with Hammerhead Ribozymes: Some Unique Structural and Functional Aspects with Respect to Other Members of the Group
- Mutagenesis via Insertional or Restriction Enzyme-Mediated Integration (REMI) as a Tool to Tag Pathogenicity Related Genes in Plant Pathogenic Fungi
- Role of Mitochondria in Parkinson Disease
- Mitochondria Harbouring Mutant mtDNA a Cuckoo in the Nest?
- Mutant p53: Gain-of-Function Oncoproteins and Wild-Type p53 Inactivators
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- Mutations of Calcium Channel beta Subunit Genes in Mice
- Agonist-Stimulated Pathways of Calcium Signaling in Pancreatic Acinar Cells
- Some of the Early Events Underlying Th2. Cell Maturation and Susceptibility to Leishmania major Infection in BALB/c Mice
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- Elementary Steps in Protein Folding
- Molecular Reaction Mechanisms of Proteins Monitored by Time-Resolved FTIR-Spectroscopy
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