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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)
We have studied single molecules and paracrystals of the stalk domain of the microtubule motor protein,
kinesin
, using circular dichroism, electron microscopy, and optical diffraction. The stalk is a rod-like particle, about 50 nm in length, with about 70% alpha-helical content (lower than
tropomyosin
and myosin). These data confirm the previous studies of M. De Cuevas, T. Tao, and L.S. B. Goldstein (J. Cell Biol. 116, 957-966, 1992). The particles also show a tendency to self-associate into dimers or higher aggregates, up to paracrystals with a periodic substructure. Four types of paracrystals have been observed, two with short periodicities (8 and 13 nm, types I and II) and two with periodicities comparable with the subunit length (53-63 nm, type III and 38 nm, type IV). Types I and II paracrystals can be interpreted to arise from a polar arrangement of subunits with alternating gaps and overlaps and different staggers between adjacent molecules. Type III and IV paracrystals appear to be formed from sets of antiparallel molecules, forming centrosymmetric patterns. The association properties may be important for functions of the
kinesin
stalk in microtubule-dependent motility.
...
PMID:Paracrystalline structure of the stalk domain of the microtubule motor protein kinesin. 806 Jul 32
Calponin is a basic smooth muscle protein capable of binding to actin, calmodulin,
tropomyosin
, and phospholipids. We have found that the basic calponin interacted with brain tubulin under polymerized and unpolymerized conditions in vitro [Fujii, T., Hiromori, T., Hamamoto, M., and Suzuki, T. (1997) J. Biochem. 122, 344-351]. We examined the calponin-binding site on the tubulin molecule by sedimentation, limited digestion, chemical-cross linking, immunoblotting, and delayed extraction matrix-assisted laser desorption ionization time-of-flight mass spectrometric (DE MALDI-TOF) analyses. Calponin interacts with both the alpha and beta tubulins and only slightly with the tyrosinated and acetylated form of alpha tubulin. The binding of calponin to microtubules was blocked by adding poly(L-aspartic acid) (PLAA) or MAP2. After digestion of microtubule proteins with subtilisin, the amount of calponin binding to alphabetas microtubules was reduced compared to native microtubules, but no further reduction was observed in the case of alphasbetas microtubules. The chemical cross-linked products of calponin and synthesized peptides (KDYEEVGVDSVEGE; alpha-KE) derived from the C-terminal region of alpha tubulin and (YQQYQDATADEQG; beta-YG) and (GEFEEEGEEDEA; beta-GA) from that of beta tubulin were detected by mass spectrometry. One kind of calponin-peptide complex was formed in the presence of alpha-KE or beta-YG, while five complexes (calponin:peptide = 1:1-5) were generated in the presence of beta-GA. Peptides alpha-KE and beta-GA inhibited the binding of calponin to tubulin produced by EDC in a concentration-dependent manner. These findings suggest that basic calponin interacts with both tubulin subunits and that their C-terminal regions, which also contain the binding sites of MAP2, tau, and
kinesin
, may be involved in calponin-binding.
...
PMID:Identification of the binding region of basic calponin on alpha and beta tubulins. 1022 May 77
Alpha-helical coiled-coils are common protein structural motifs. Whereas vast information is available regarding their structure, folding, and stability, far less is known about their elastic properties, even though they play mechanical roles in many cases such as
tropomyosin
in muscle contraction or neck stalks of
kinesin
or myosin motor proteins. Using computer simulations, we characterized elastic properties of coiled-coils, either globally or locally. Global bending stiffness of standard leucine zipper coiled-coils was calculated using normal mode analysis. Mutations in hydrophobic residues involved in the knob-into-hole interface between the two alpha-helices affect elasticity significantly, whereas charged side chains forming inter-helical salt bridges do not. This suggests that coiled-coils with less regular heptad periodicity may have regional variations in flexibility. We show this by the flexibility map of
tropomyosin
, which was constructed by a local fluctuation analysis. Overall, flexibility varies by more than twofold and increases towards the C-terminal region of the molecule. Describing the coiled-coil as a twisted tape, it is generally more flexible in the splay bending than in the bending of the broad face. Actin binding sites in alpha zones show local rigidity minima. Broken core regions due to acidic residues at the hydrophobic face such as the Asp137 and the Glu218 are found to be the most labile with moduli for splay and broad face bending as 70 nm and 116 nm respectively. Such variation in flexibility could be relevant to the
tropomyosin
function, especially for moving across the non-uniform surface of F-actin to regulate myosin binding.
...
PMID:Modulation of elasticity in functionally distinct domains of the tropomyosin coiled-coil. 1983 Feb 62
Intracellular transport is largely driven by processive microtubule- and actin-based molecular motors. Nonprocessive motors have also been localized to trafficking cargos, but their roles are not well understood. Myosin-Ic (Myo1c), a nonprocessive actin motor, functions in a variety of exocytic events, although the underlying mechanisms are not yet clear. To investigate the interplay between myosin-I and the canonical long-distance transport motor
kinesin
-1, we attached both motor types to lipid membrane-coated bead cargo, using an attachment strategy that allows motors to actively reorganize within the membrane in response to the local cytoskeletal environment. We compared the motility of
kinesin
-1-driven cargos in the absence and presence of Myo1c at engineered actin/microtubule intersections. We found that Myo1c significantly increases the frequency of
kinesin
-1-driven microtubule-based runs that begin at actin/microtubule intersections. Myo1c also regulates the termination of processive runs. Beads with both motors bound have a significantly higher probability of pausing at actin/microtubule intersections, remaining tethered for an average of 20 s, with some pauses lasting longer than 200 s. The actin-binding protein nonmuscle
tropomyosin
(Tm) provides spatially specific regulation of interactions between myosin motors and actin filaments in vivo; in the crossed-filament in vitro assay, we found that Tm2-actin abolishes Myo1c-specific effects on both run initiation and run termination. Together, these observations suggest Myo1c is important for the selective initiation and termination of
kinesin
-1-driven runs along microtubules at specific actin filament populations within the cell.
...
PMID:Control of the initiation and termination of kinesin-1-driven transport by myosin-Ic and nonmuscle tropomyosin. 2566 May 42
Localization and local translation of oskar mRNA at the posterior pole of the Drosophila oocyte directs abdominal patterning and germline formation in the embryo. The process requires recruitment and precise regulation of motor proteins to form transport-competent mRNPs. We show that the posterior-targeting
kinesin
-1 is loaded upon nuclear export of oskar mRNPs, prior to their dynein-dependent transport from the nurse cells into the oocyte. We demonstrate that
kinesin
-1 recruitment requires the DmTropomyosin1-I/C isoform, an atypical RNA-binding
tropomyosin
that binds directly to dimerizing oskar 3'UTRs. Finally, we show that a small but dynamically changing subset of oskar mRNPs gets loaded with inactive
kinesin
-1 and that the motor is activated during mid-oogenesis by the functionalized spliced oskar RNA localization element. This inefficient, dynamic recruitment of Khc decoupled from cargo-dependent motor activation constitutes an optimized, coordinated mechanism of mRNP transport, by minimizing interference with other cargo-transport processes and between the cargo-associated dynein and
kinesin
-1.
...
PMID:An RNA-binding atypical tropomyosin recruits kinesin-1 dynamically to oskar mRNPs. 2802 52
The objective of this article was to document the energy-transducing and regulatory interactions in supramolecular complexes such as motor, pump, and clock ATPases. The dynamics and structural features were characterized by motion and distance measurements using spin-labeling electron paramagnetic resonance (EPR) spectroscopy. In particular, we focused on myosin ATPase with actin-troponin-
tropomyosin
, neural
kinesin
ATPase with microtubule, P-type ion-motive ATPase, and cyanobacterial clock ATPase. Finally, we have described the relationships or common principles among the molecular mechanisms of various energy-transducing systems and how the large-scale thermal structural transition of flexible elements from one state to the other precedes the subsequent irreversible chemical reactions.
...
PMID:Myosin and Other Energy-Transducing ATPases: Structural Dynamics Studied by Electron Paramagnetic Resonance. 3196 70
