EC:3.6.4.4 - FACTA Search

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Query: EC:3.6.4.4 (kinesin)
5,033 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Kinesin is a two-headed motor protein that powers organelle transport along microtubules. Many ATP molecules are hydrolysed by kinesin for each diffusional encounter with the microtubule. Here we report the development of a new assay in which the processive movement of individual fluorescently labelled kinesin molecules along a microtubule can be visualized directly; this observation is achieved by low-background total internal reflection fluorescence microscopy in the absence of attachment of the motor to a cargo (for example, an organelle or bead). The average distance travelled after a binding encounter with a microtubule is 600 nm, which reflects a approximately 1% probability of detachment per mechanical cycle. Surprisingly, processive movement could still be observed at salt concentrations as high as 0.3 M NaCl. Truncated kinesin molecules having only a single motor domain do not show detectable processive movement, which is consistent with a model in which kinesin's two force-generating heads operate by a hand-over-hand mechanism.
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PMID:Direct observation of single kinesin molecules moving along microtubules. 860 45

Non-claret disjunctional (Ncd) is a kinesin-related microtubule motor protein in Drosophila that functions in meiotic spindle assembly in oocytes and spindle pole maintenance in early embryos. The partial loss-of-function mutant ncdD retains mitotic, but not meiotic, function. The predicted NcdD mutant protein contains a V556-->F mutation in the putative microtubule binding region of the Ncd motor domain. Here we report an analysis of the properties of recombinant Ncd and NcdD proteins. A GST-NcdD fusion protein translocated microtubules approximately 10-fold more slowly than the corresponding wild-type protein in gliding assays. The maximum microtubule-stimulated ATPase activity of an NcdD motor domain protein was reduced approximately 3-fold and an approximately 3-fold greater concentration of microtubules was required for half-maximal stimulation of ATPase activity, compared with the corresponding wild-type protein. The Km for ATP and basal rate of ATP turnover were, in contrast, similar for the NcdD mutant and wild-type Ncd motor domain proteins. Pelleting assays demonstrated that the binding of the mutant NcdD motor protein to microtubules was reduced in the absence of nucleotide, relative to wild-type. The reduced velocity of NcdD translocation on microtubules is therefore correlated with reductions in microtubule-stimulated ATPase activity and affinity of the mutant motor for microtubules. The characteristics of the NcdD motor explain its meiotic loss of function, and are consistent with partial motor activity of Ncd being sufficient for its mitotic, but not its meiotic, role.
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PMID:A point mutation in the microtubule binding region of the Ncd motor protein reduces motor velocity. 867 Aug 31

Calcium regulates diverse developmental processes in plants through the action of calmodulin. A cDNA expression library from developing anthers of tobacco was screened with 35S-labeled calmodulin to isolate cDNAs encoding calmodulin-binding proteins. Among several clones isolated, a kinesin-like gene (TCK1) that encodes a calmodulin-binding kinesin-like protein was obtained. The TCK1 cDNA encodes a protein with 1265 amino acid residues. Its structural features are very similar to those of known kinesin heavy chains and kinesin-like proteins from plants and animals, with one distinct exception. Unlike other known kinesin-like proteins, TCK1 contains a calmodulin-binding domain which distinguishes it from all other known kinesin genes. Escherichia coli-expressed TCK1 binds calmodulin in a Ca(2+)-dependent manner. In addition to the presence of a calmodulin-binding domain at the carboxyl terminal, it also has a leucine zipper motif in the stalk region. The amino acid sequence at the carboxyl terminal of TCK1 has striking homology with the mechanochemical motor domain of kinesins. The motor domain has ATPase activity that is stimulated by microtubules. Southern blot analysis revealed that TCK1 is coded by a single gene. Expression studies indicated that TCK1 is expressed in all of the tissues tested. Its expression is highest in the stigma and anther, especially during the early stages of anther development. Our results suggest that Ca2+/calmodulin may play an important role in the function of this microtubule-associated motor protein and may be involved in the regulation of microtubule-based intracellular transport.
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PMID:A novel kinesin-like protein with a calmodulin-binding domain. 870 62

The 'plus' ends of microtubules exhibit dynamic instability, switching stochastically from growth to shortening phases. The first endogenous regulator of such 'catastrophes' has been identified, and is a kinesin-related microtubule motor protein.
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PMID:Cytoskeleton: a catastrophic kinesin. 872 32

The analysis of cDNA clones encoding novel variant forms of mouse kinectin, an endoplasmic reticulum (ER)-bound receptor for the motor protein kinesin, is reported. Kinesin and cytoplasmic dynein are involved in mediating the anterograde and retrograde movements of intracellular vesicles along the microtubule network. The amino acid sequence deduced from kinectin cDNA isolated from mouse spleen cell and testis libraries revealed a long signal peptide or transmembrane sequence, and a 328 amino acid residue globular N-terminal domain adjacent to a much larger 858-999-residue C-terminal coiled-coil rod domain. The C-terminal domain was composed of 18 coiled-coil regions formed from multiple contiguous heptad repeats which undergo alternative splicing as evidenced by the presence of at least five small (23-33 amino acid residue) insertion sequences scattered throughout. The inserts are present in any one of a number of combinations, generating an array of novel kinectin variants. Insert 5 contains a termination codon, producing a C-terminus that is highly homologous to that of human kinectin. Three out of five mouse kinectin clones lack insert 5, generating a novel eleven amino acid C-terminus encoded by sequence that extends past the insertion site. The existence of alternative C-termini may have functional relevance given that the C-termini are exposed for interaction with kinesin, whereas the globular N-terminus is embedded in the ER membrane. Alternative C-termini represent candidate modifications that could determine specificity of binding to kinesin or cytoplasmic dynein, and the switching of directionality of movement. The cDNA hybridized to 4.5 kb transcripts expressed in all mouse cell lines and tissues examined, which provides the first indication that the kinectins are very widely distributed. Mouse kinectin is 42% similar over a 203 amino acid region to the chicken extracellular cardiac morphogen ES/130, whose canine homologue containing an inserted sequence of 10 amino acids repeated 54 times in tandem, is a ribosome receptor expressed on the ER. Mouse kinectin shares 64 and 83% identity, respectively, with its M(r) 160000 chicken and human kinectin homologues. There is a two-fold molar excess of kinectin over kinesin in unextracted vesicles, suggesting that kinectin might be a dimer. The electrostatic properties of the coiled-coil region of mouse kinectin, together with the relative frequencies of residues in particular positions within the heptad repeats support this notion.
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PMID:Cloning of novel kinectin splice variants with alternative C-termini: structure, distribution and evolution of mouse kinectin. 891 5

AtKCBP is a calcium-dependent calmodulin-binding protein from Arabidopsis that contains a conserved kinesin microtubule motor domain. Calmodulin has been shown previously to bind to heavy chains of the unconventional myosins, where it is required for in vitro motility of brush border myosin I, but AtKCBP is the first kinesin-related heavy chain reported to be capable of binding specifically to calmodulin. Other kinesin proteins have been identified in Arabidopsis, but none of these binds to calmodulin, and none has been demonstrated to be a microtubule motor. We have tested bacterially expressed AtKCBP for the ability to bind microtubules to a glass surface and induce gliding of microtubules across the glass surface. We find that AtKCBP is a microtubule motor protein that moves on microtubules toward the minus ends, with the opposite polarity as kinesin. In the presence of calcium and calmodulin, AtKCBP no longer binds microtubules to the coverslip surface. This contrasts strikingly with the requirement of calmodulin for in vitro motility of brush border myosin I. Calmodulin could regulate AtKCBP binding to microtubules in the cell by inhibiting the binding of the motor to microtubules. The ability to bind to calmodulin provides an evolutionary link between the kinesin and myosin motor proteins, but our results indicate that the mechanisms of interaction and regulation of kinesin and myosin heavy chains by calmodulin are likely to differ significantly.
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PMID:In vitro motility of AtKCBP, a calmodulin-binding kinesin protein of Arabidopsis. 899 Feb 7

ncd is a microtubule motor protein from Drosophila, having a 40 kDa domain homologous to the kinesin motor domain. In the present study, we investigated the circular dichroism (CD) spectra of the ncd motor domain in comparison with those of the kinesin motor domain. Although the two are about 40% identical in amino acid sequence, and recent X-ray crystallographic studies [Sablin, Kull, Cooke, Vale, and Fletterick (1996) Nature 380, 555-559; Kull, Sablin, Lau, Fletterick, and Vale (1996) Nature 380, 550-555] indicate that their core structures are nearly identical, the far UV CD spectra of ncd and kinesin motor domains, both being monomeric, were considerably different from each other, suggesting a significant difference in the secondary, especially loop structures. The motor domain of ncd, like that of kinesin, contains tightly associating ADP even after purification. We removed ADP from the ncd motor domain by gel filtration in the presence of EDTA and high salt. The resultant protein, however, was likely to be in an inactive state, since it bound ATP slowly. The far UV CD spectrum of the ncd motor domain devoid of ADP was nearly identical to that of the ncd motor domain with bound ADP. This indicated that the removal of ADP did not affect the backbone structure in the presence of high salt. On the other hand, the near UV CD spectrum of the ADP-free ncd motor domain differed from that of the ncd motor domain. ADP complex, one possibility being that the local conformation was changed upon removal of bound ADP. The near UV CD spectra of kinesin motor domain also showed a difference between the ADP-bound form and the nucleotide-free form, although the difference was much smaller.
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PMID:Comparison of ncd and kinesin motor domains by circular dichroism spectroscopy. 901 Jul 67

New images, calculated from electron micrographs, show the three-dimensional structures of microtubules and tubulin sheets decorated stoichiometrically with globular motor protein domains (heads). Single heads of kinesin and ncd, the kinesin-related protein that moves in the reverse direction to kinesin, bind in the same way to the same site on tubulin. Dimeric kinesin and dimeric ncd show an interesting difference in the positions of their second heads.
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PMID:The structure of microtubule-motor complexes. 901 67

Ncd is a kinesin-related microtubule motor protein required for chromosome segregation in Drosophila oocytes and early embryos. In tests for interactions with other proteins, we find that mutants of alpha Tub67C, which affect an oocyte- and early embryo-specific alpha-tubulin, enhance meiotic nondisjunction and zygotic loss of ncdD, a partial loss-of-function mutant of ncd. The enhancement is dominant and allele-specific with respect to alpha Tub67C, and depends on the recessive effects of ncdD. Cytologically, embryos of alpha Tub67C/+ show delayed meiotic divisions and defective female pronucleus formation, while meiotic spindle assembly is abnormal in embryos of ncdD/ncdD. Doubly mutant alpha Tub67C ncdD/ncdD embryos are rescued for female pronucleus formation, but show delayed meiotic progression and defective pronuclear conjugation or fusion. Delayed completion of meiosis, together with failure of pronuclear fusion, prevents normal interactions of maternal with paternal chromosomes, enhancing the ncdD mutant phenotype. The genetics and cytology of doubly mutant embryos and the molecular defect of NcdD provide evidence for interaction of Ncd with alpha Tub67C in vivo. These results imply that a specific alpha-tubulin isoform is required for normal cellular function of a kinesin motor protein.
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PMID:Enhancement of the ncdD microtubule motor mutant by mutants of alpha Tub67C. 904 53

The kinesin superfamily is a large group of proteins (kinesin-like proteins [KLPs]) that share sequence similarity with the microtubule (MT) motor kinesin. Several members of this superfamily have been implicated in various stages of mitosis and meiosis. Here we report our studies on KLP67A of Drosophila. DNA sequence analysis of KLP67A predicts an MT motor protein with an amino-terminal motor domain. To prove this directly, KLP67A expressed in Escherichia coli was shown in an in vitro motility assay to move MTs in the plus direction. We also report expression analyses at both the mRNA and protein level, which implicate KLP67A in the localization of mitochondria in undifferentiated cell types. In situ hybridization studies of the KLP67A mRNA during embryogenesis and larval central nervous system development indicate a proliferation-specific expression pattern. Furthermore, when affinity-purified anti-KLP67A antisera are used to stain blastoderm embryos, mitochondria in the region of the spindle asters are labeled. These data suggest that KLP67A is a mitotic motor of Drosophila that may have the unique role of positioning mitochondria near the spindle.
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PMID:Mitochondrial association of a plus end-directed microtubule motor expressed during mitosis in Drosophila. 906 Apr 72

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