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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)
Although the overall structures of flagellar and cytoplasmic microtubules are understood, many details have remained a matter of debate. In particular, studies of the arrangement of tubulin subunits have been hampered by the low contrast of the tubulin subunits. This problem can now be addressed by the
kinesin
decoration technique. We have shown previously that the recombinant
kinesin
head domain binds to beta-tubulin, thus enhancing the contrast between alpha- and beta-tubulin in the electron microscope; this allows one to study the arrangement of tubulin dimers. Here we describe the lattices of the four different types of microtubules in eukaryotic flagellar axonemes (outer doublet A and B, central pair C1 and C2). They could all be labeled with
kinesin
head with an 8-nm axial periodicity (the tubulin dimer repeat), and all of them showed the B-surface lattice. This lattice is characterized by a 0.92-nm stagger between adjacent protofilaments. The B-lattice was observed on the axonemal microtubules as well as on extensions made by polymerizing porcine brain tubulin onto axonemal microtubules in the proximal and distal directions. This emphasizes that axonemal microtubules serve as high fidelity templates for seeding microtubules. The presence of a B-lattice implies that there must be a helical discontinuity ("seam") in the wall. This discontinuity is now placed near protofilaments A1 and A2 of the A-tubule, close to the inner junction between A- and B-microtubules. The two junctions differ in structure: the protofilaments of the inner junction (A1-B10) are staggered roughly by half a dimer, those of the outer junction (A10-B1) are roughly in register. Of the two junctions the inner one appears to have the stronger bonds, whereas the outer one is more labile and opens up easily, generating "composite sheets" with chevron patterns from which the polarity can be deduced (arrow in the plus direction). Decorated microtubules have a clear polarity. We find that all flagellar microtubules have the same polarities. The orientation of the dimers is such that the plus end terminates with a crown of alpha subunits, the minus end terminates with beta subunits which thus could be in contact with
gamma-tubulin
at the nucleation centers.
...
PMID:The anatomy of flagellar microtubules: polarity, seam, junctions, and lattice. 782 25
The study of microtubules always manages to surprise and fascinate us, and it has done so yet again over the past year as significant progress has been made in the areas of microtubule nucleation, growth and structural polarity. Microtubule nucleation has been the subject of publications that show the involvement of
gamma-tubulin
-containing complexes as nucleating templates in the microtubule-organizing centre. It is unclear how this nucleation is compatible with microtubule growth, which appears to take place by an unusual, and perhaps unique, process involving sheet-like extensions that continuously close into tubes as growth proceeds. The related, and longstanding, problem is that of the relationship between tubulin dimer structure and microtubule polarity. This problem appears to be solved. A number of approaches have converged to suggest that the tubulin dimer is organized with beta-tubulin pointing towards the microtubule fast-growing plus end and with alpha-tubulin towards the minus end. Specific decoration with
kinesin
monomers shows that all microtubules examined to date are basically organized as B-lattices.
...
PMID:Microtubule structure and dynamics. 901 74
Previous research has found that a
gamma-tubulin
mutation in Schizosaccharomyces pombe is synthetically lethal with a deletion of the C-terminal motor domain kinesin-like protein gene pkl1, but the lethality of the double mutant prevents a phenotypic analysis of the synthetic interaction. We have investigated interactions between klpA1, a deletion of an Aspergillus nidulans homolog of pkl1, and mutations in the mipA,
gamma-tubulin
gene. We find that klpA1 dramatically increases the cold sensitivity and slightly reduces the growth rate at all temperatures, of three mipA alleles. In synchronized cells we find that klpA1 causes a substantial but transient inhibition of the establishment of spindle bipolarity. At a restrictive temperature, mipAD123 causes a slight, transient inhibition of spindle bipolarity and a more significant inhibition of anaphase A. In the mipAD123/klpA1 strain, formation of bipolar spindles is more strongly inhibited than in the klpA1 single mutant and many spindles apparently never become bipolar. These results indicate, surprisingly, that
gamma-tubulin
and the klpA
kinesin
have overlapping roles in the establishment of spindle bipolarity. We propose a model to account for these data.
...
PMID:Gamma-tubulin and the C-terminal motor domain kinesin-like protein, KLPA, function in the establishment of spindle bipolarity in Aspergillus nidulans. 1159
The role of microtubule-based motors in the induction of abnormal centrosome integrity by dimethylarsinic acid (DMAA) was investigated with the use of monastrol, a specific inhibitor of mitotic
kinesin
, and vanadate, an inhibitor of dynein ATPase. Cytoplasmic dynein co-localized with multiple foci of
gamma-tubulin
in mitotic cells arrested by DMAA. Disruption of microtubules caused dispersion of dynein while multiple foci of
gamma-tubulin
were coalesced to a single dot. Vanadate also caused dispersion of dynein, which had been co-localized with multiple foci of
gamma-tubulin
by DMAA, without affecting spindle organization. However, the dispersion of dynein did not prohibit the induction of abnormal centrosome integrity by DMAA. Inhibition of mitotic
kinesin
by monastrol resulted in monoastral cells with non-migrated centrosomes in the cell center. Monastrol, when applied to mitotic cells with abnormal centrosome integrity, rapidly reduced the incidence of cells with the centrosome abnormality. Moreover, monastrol completely inhibited reorganization of abnormal centrosomes that had been coalesced to a single dot by microtubule disruption. These results suggest that abnormal centrosome integrity caused by DMAA is not simply due to dispersion of fragments of microtubule-organizing centers, but is dependent on the action of
kinesin
. In addition, the results suggest that
kinesin
plays a role not only in the induction of mitotic centrosome abnormality, but also in maintenance.
...
PMID:Role of mitotic motors, dynein and kinesin, in the induction of abnormal centrosome integrity and multipolar spindles in cultured V79 cells exposed to dimethylarsinic acid. 1180 6
Bipolar spindle formation is essential for the accurate segregation of genetic material during cell division. Although centrosomes influence the number of spindle poles during mitosis, motor and non-motor microtubule-associated proteins (MAPs) also play key roles in determining spindle morphology. TPX2 is a novel MAP also characterized in Xenopus cell-free extracts. To examine hTPX2 (human TPX2) function in human cells, we used siRNA to knock-down its expression and found that cells lacking hTPX2 arrest in mitosis with multipolar spindles. NuMA,
gamma-tubulin
, and centrin localize to each pole, and nocodazole treatment of cells lacking hTPX2 demonstrates that the localization of
gamma-tubulin
to multiple spindle poles requires intact microtubules. Furthermore, we show that the formation of monopolar microtubule arrays in human cell extracts does not require hTPX2, demonstrating that the mechanism by which hTPX2 promotes spindle bipolarity is independent of activities focusing microtubule minus ends at spindle poles. Finally, inhibition of the
kinesin
Eg5 in hTPX2-depleted cells leads to monopolar spindles, indicating that Eg5 function is necessary for multipolar spindle formation in the absence of hTPX2. Our observations reveal a structural role for hTPX2 in spindles and provide evidence for a balance between microtubule-based motor forces and structural spindle components.
...
PMID:hTPX2 is required for normal spindle morphology and centrosome integrity during vertebrate cell division. 1247 96
In fission yeast,
gamma-tubulin
(encoded by the gtb1+ gene), Alp4 (Spc97/GCP2), and Alp6 (Spc98/GCP3) are essential components of the
gamma-tubulin
complex. We isolated gtb1 mutants as allele-specific suppressors of temperature-sensitive alp4 mutations. Mutation sites in gtb1 mutants and in several alp4 alleles were determined. The majority of substituted amino acids were mapped to a small area on the predicted surface of the
gamma-tubulin
molecule that might directly interact with the Alp4 protein. The cold sensitivity of
gamma-tubulin
mutants was almost completely suppressed by an alpha-tubulin mutation and partially suppressed by a low concentration of thiabendazole, a microtubule assembly inhibitor. Other gtb1 mutants had increased resistance to this drug. Gel-filtration and immunoprecipitation analyses suggested that the mutant
gamma-tubulin
formed an altered
gamma-tubulin
complex with increased stability compared to wild-type
gamma-tubulin
. In most gtb1 mutants, sexual development was impaired, and aberrant asci that contained an irregular spore shape and number were produced. In contrast, spore formation was not appreciably damaged in some alp4 and alp6 mutants, even at temperatures where vegetative proliferation was substantially defective. These results suggested that the function of the
gamma-tubulin
complex or the requirement of each component of the complex is differentially regulated between the vegetative and sexual phases of the life cycle in fission yeast. In addition, genetic data indicated intimate functional connections of
gamma-tubulin
with several
kinesin
-like proteins.
...
PMID:Functional dissection of the gamma-tubulin complex by suppressor analysis of gtb1 and alp4 mutations in Schizosaccharomyces pombe. 1528 Feb 26
Genes for the mitotic kinases Polo and Aurora A were first identified in Drosophila through screens of maternal effect lethal mutations for defects in spindle pole behaviour. These enzymes have been shown to be highly conserved and required for multiple functions in mitosis. Polo is stabilized at the centrosome by association with Hsp90. It is required for centrosome maturation on M-phase entry in order to recruit the
gamma-tubulin
ring complex and activate the abnormal spindle protein, Asp. These events facilitate the nucleation of minus ends of microtubules at the centrosome. The localization of Polo at the kinetochore and the mid-zone of the central spindle together with the phenotypes of polo mutants point to functions at the metaphase to anaphase transition and in cytokinesis. The latter are mediated, at least in part, through the Pavarotti
kinesin
-like motor protein and its conserved counterparts in other metazoans.
...
PMID:Polo kinase and progression through M phase in Drosophila: a perspective from the spindle poles. 1564 Aug 38
Microtubules (MTs) are dynamic polymers that undergo cell cycle and position-sensitive regulation of polymerization and depolymerization. Although many different factors that regulate MT dynamics have been described, to date there has been no systematic analysis of genes required for MT dynamics in a single system. Here, we use a transgenic EB1::GFP strain, which labels the growing plus ends of MTs, to analyze the growth rate, nucleation rate, and distribution of growing MTs in the Caenorhabditis elegans embryo. We also present the results from an RNAi screen of 40 genes previously implicated in MT-based processes. Our findings suggest that fast microtubule growth is dependent on the amount of free tubulin and the ZYG-9-TAC-1 complex. Robust MT nucleation by centrosomes requires AIR-1, SPD-2, SPD-5, and
gamma-tubulin
. However, we found that centrosomes do not nucleate MTs to saturation; rather, the depolymerizing
kinesin
-13 subfamily member KLP-7 is required to limit microtubule outgrowth from centrosomes.
...
PMID:Identification and characterization of factors required for microtubule growth and nucleation in the early C. elegans embryo. 1605 29
Alp4 is an essential component of the S. pombe
gamma-tubulin
complex. Overproduction of the carboxy-terminus of Alp4 induces oscillatory nuclear movement led by the spindle pole body (SPB). The movement is not dependent on cytoplasmic dynein dhc1, or
kinesin
-related proteins pkl1 and klp2. Rates of SPB movement correlate with elongation rates of microtubules (MTs) extending backwards from the moving SPB (backward-extending MTs), showing that pushing forces exerted by backward-extending MTs move the nucleus via the SPB. These backward-extending MTs are more stable than those of control cells and, thus, are able to push the SPB further towards the cell end, inducing nuclear oscillation with larger amplitudes than in control cells. SPB movement is biased towards the new end of the cell where levels of the CLIP170 homolog Tip1 increase, suggesting that the movement is related to MT-mediated cell polarity control. These results demonstrate that the carboxy-terminus of Alp4 alters MT dynamics and induces nuclear oscillation by modulating a nuclear positioning mechanism based on the balance of MT pushing forces, and suggest that regulation of
gamma-tubulin
complex activity is important for controlling MT dynamics and nuclear positioning.
...
PMID:The carboxy-terminus of Alp4 alters microtubule dynamics to induce oscillatory nuclear movement led by the spindle pole body in Schizosaccharomyces pombe. 1661 Dec 38
The tumor suppressor protein adenomatous polyposis coli (APC) is a multifunctional protein with a well characterized role in the Wnt signal transduction pathway and roles in cytoskeletal regulation and cell polarity. The soluble pool of APC protein in colon epithelial tumor cells exists in two distinct complexes fractionating at approximately 20S and approximately 60S in size. The 20S complex contains components of the beta-catenin destruction complex and probably functions in the Wnt pathway. In this study, we characterized the molecular nature of the 60S APC- containing complex by examining known potential binding partners of APC. 60S APC did not contain EB1 or diaphanous, proteins that have been reported to interact with APC and are implicated in microtubule plus end stabilization. Nor did the two other microtubule associated proteins, MAP4 or KAP3, which is thought to link APC to
kinesin
motor proteins, associate with the 60S complex. Minor fractions of alpha-tubulin,
gamma-tubulin
and IQGAP1, a Rac1 and CDC42 effector that interacts with APC, specifically associated with APC in the 60S fraction. We propose that 60S APC is a discrete high molecular weight complex with a novel function in cytoskeletal regulation in epithelial cells apart from its well established role in targeting catenin destruction or its proposed role in microtubule plus end stabilization.
...
PMID:Characterization of a 60S complex of the adenomatous polyposis coli tumor suppressor protein. 1712 24
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