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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 used an in vitro assay to characterize some of the motile properties of sea urchin egg
kinesin
. Egg
kinesin
is purified via 5'-adenylyl imidodiphosphate-induced binding to taxol-assembled microtubules, extraction from the microtubules in ATP, and gel filtration chromatography (Scholey, J. M., Porter, M. E., Grissom, P. M., and McIntosh, J. R. (1985) Nature 318, 483-486). This partially purified
kinesin
is then adsorbed to a glass coverslip, mixed with microtubules and ATP, and viewed by video-enhanced differential interference contrast microscopy. The microtubule translocating activity of the purified egg
kinesin
is qualitatively similar to the analogous activity observed in crude extracts of sea urchin eggs and resembles the activity of neuronal
kinesin
with respect to both the maximal rate (greater than 0.5 micron/s) and the direction of movement. Axonemes glide on a
kinesin
-coated coverslip toward their minus ends, and
kinesin
-coated beads translocate toward the plus ends of centrosome microtubules. Sea urchin egg
kinesin
is inhibited by high concentrations of SH reagents ([N-ethylmaleimide] greater than 3-5 mM), vanadate greater than 50 microM, and [nonhydrolyzable nucleotides] greater than or equal to [MgATP]. The nucleotide requirement of sea urchin egg
kinesin
is fairly broad (ATP greater than
GTP
greater than ITP), and the rate of microtubule movement increases in a saturable fashion with the [ATP]. We conclude that the motile activity of egg
kinesin
is indistinguishable from that of neuronal
kinesin
. We propose that egg
kinesin
may be associated with microtubule-based motility in vivo.
...
PMID:Characterization of the microtubule movement produced by sea urchin egg kinesin. 310 75
Tubulin is a GTPase that hydrolyzes its bound nucleotide triphosphate after it becomes incorporated into a microtubule. The only known consequence of nucleotide hydrolysis is that it increases the dissociation rate of tubulin from the end of the microtubule by 2 orders of magnitude. In this study, we investigated whether microtubules composed of tubulin-GMPCPP (guanylyl alpha,beta-methylenediphosphate) (a very slowly hydrolyzed
GTP
analog) or tubulin-GDP exhibit additional structural or functional differences. We show that tubulin-GMPCPP microtubules are significantly stiffer than tubulin-GDP microtubules and have a 21% shallower protofilament twist angle. We also find that
kinesin
, a microtubule-based motor protein, transports tubulin-GMPCPP microtubules at approximately 30% faster rates than tubulin-GDP microtubules. These findings suggest that growing microtubule ends, which are thought to be composed of tubulin-
GTP
, may have different structural and mechanical properties from the remainder of the microtubule polymer.
...
PMID:Tubulin GTP hydrolysis influences the structure, mechanical properties, and kinesin-driven transport of microtubules. 791 45
The Drosophila
kinesin
heavy-chain gene was truncated to obtain the N-terminal 401 amino acid motor domain (designated K401) containing both the microtubule and ATP binding sites. The plasmid construct with the truncated
kinesin
gene was used to transform Escherichia coli. After induction, K401 was expressed as soluble kinesin protein at high levels and purified to homogeneity in milligram quantities. The purified protein was active and behaved as native
kinesin
with respect to its steady-state kinetic properties: K401 demonstrated a very low ATPase activity (kcat = 0.01 s-1) which was stimulated approximately 1000-fold by the addition of microtubules (kcat = 10 s-1; K0.5,MT = 0.9 microM tubulin; Km,ATP = 31 microM). Like native
kinesin
, K401 when purified contained ADP tightly bound at its active site, and the release of ADP from the active site occurred at a rate equal to the steady-state ATPase kcat. Active-site measurements using [alpha-32P]ATP demonstrated a stoichiometry of one ATPase site per K401 molecule. Like native
kinesin
, K401 can also hydrolyze MgGTP, and in the presence of microtubules, the rate of hydrolysis was increased dramatically from 0.03 to 16 s-1 (K0.5,MT = 2 microM tubulin; Km,
GTP
= 3.5 mM). These results establish that an active
kinesin
motor domain can be bacterially expressed and that this domain, the N-terminal 401 amino acids of the Drosophila kinesin heavy chain without light chains or additional eukaryotic factors, has full catalytic activity with microtubules.(ABSTRACT TRUNCATED AT 250 WORDS)
...
PMID:Expression, purification, and characterization of the Drosophila kinesin motor domain produced in Escherichia coli. 848 45
The Rho family small G proteins are implicated in various cell functions, such as cell morphological change, cell motility, and cytokinesis. However, their modes of action in regulating these cell functions remain to be clarified. In the present study, we have isolated a cDNA encoding a protein which interacts with the
GTP
-bound form, but not with the GDP-bound form, of the Rho family members, including RhoA, Racl, and Cdc42, by the yeast two-hybrid method. This protein is kinectin, known to be a vesicle membrane anchoring protein of
kinesin
, which is an ATPase motor transporting vesicles along microtubules.
...
PMID:Interaction of the Rho family small G proteins with kinectin, an anchoring protein of kinesin motor. 876 96
Smg GDS is a regulator having two activities on a group of small G proteins including the Rho and Rap1 family members and Ki-Ras; one is to stimulate their GDP/
GTP
exchange reactions, and the other is to inhibit their interactions with membranes. Structurally, it has 11 Arm repeats, a protein interaction motif, found in the Drosophila Armadillo protein, a homolog of mammalian beta-catenin. We have isolated here an Smg GDS-interacting protein from a human brain cDNA library by use of the yeast two-hybrid method and named it SMAP (Smg GDS-associated protein). SMAP was a protein with a Mr of 91,189 and 792 amino acids. SMAP had 9 Arm repeats. Recombinant SMAP interacted with recombinant Smg GDS but did not affect the two activities of Smg GDS on RhoA. SMAP was tyrosine phosphorylated by v-Src, and this phosphorylation reduced the affinity of SMAP for Smg GDS. Tissue and subcellular distribution analyses indicated that SMAP was ubiquitously expressed and highly concentrated at the endoplasmic reticulum area. Searches for sequence homology to SMAP revealed that SMAP was significantly homologous to sea urchin SpKAP115, suggesting that SMAP is a mammalian counterpart of SpKAP115 or its related protein. SpKAP115 is an accessory subunit of sea urchin
kinesin
II, an ATPase motor that transports vesicles along microtubules. These results suggest that SMAP serves as an adaptor for both Smg GDS and
kinesin
II or its related protein and links them with both the Smg GDS-regulated small G protein and Src tyrosine kinase signalings.
...
PMID:SMAP, an Smg GDS-associating protein having arm repeats and phosphorylated by Src tyrosine kinase. 890 Jan 89
Analysis of a cDNA for a 125 kDa polypeptide, previously isolated from phragmoplasts of tobacco BY-2 cells as a candidate for a plus end-directed microtubule motor, revealed this polypeptide to be a novel member of the
kinesin
superfamily. We named this protein TKRP125 (tobacco
kinesin
-related polypeptide of 125 kDa). The strong similarity between TKRP125 and members of the bimC subfamily in terms of the amino acid sequence of the amino-terminal motor domain indicated that TKRP125 belonged to the bimC subfamily. An antibody against a short peptide from the motor domain of TKRP125 inhibited the
GTP
- or ATP-dependent translocation of phragmoplast microtubules in membrane-permeabilized BY-2 cells, suggesting a role for TKRP125 in microtubule translocation, which is considered to be involved in the formation and/or maintenance of the bipolar structure of the phragmoplast. The expression of TKRP125 was found to be cell cycle-dependent. TKRP125 was not present in cells at the G1 phase. It began to appear at the S phase and accumulated during the G2 phase. The distribution of TKRP125 changed as the arrangement of microtubules changed with the progression of the cell cycle. TKRP125 was distributed along cortical microtubules during the S phase and along microtubules in the preprophase band and perinuclear microtubules in premitotic cells. It was also present in the nucleus in premitotic cells. In cells in M phase, TKRP125 was distributed along spindle microtubules. It accumulated at the equatorial plane of the spindle as the spindle elongated. In cytokinetic cells, TKRP125 was colocalized with phragmoplast microtubules. These observations suggest the possible involvement of TKRP125 in the cell cycle-dependent changes in arrays of microtubules, including the organization of the phragmoplast, and in the movement of chromosomes in anaphase cells.
...
PMID:TKRP125, a kinesin-related protein involved in the centrosome-independent organization of the cytokinetic apparatus in tobacco BY-2 cells. 904 48
The role of the microtubule-based motor,
kinesin
, in membrane trafficking has been investigated in resting and stimulated acinar cells from rabbit lacrimal gland, a cholinergically controlled secretory tissue. Microtubule-dependent motors from extracts of control and carbachol-treated acini were isolated by microtubule-affinity purification and their activity was determined using a video-enhanced differential interference contrast microscopy assay for microtubule gliding. The observation that carbachol treatment resulted in a 2.2-fold stimulation of the frequency of
GTP
-dependent microtubule gliding in fractions isolated by microtubule-affinity purification and
GTP
release suggested that
kinesin
was a target of carbachol-induced stimulation. Resolution of membranes from resting cells by fractionation on a sorbitol density gradient followed by partitioning analysis in a dextran-polyethyleneglycol two-phase system revealed that membrane-associated
kinesin
codistributed with Golgi-derived membranes, a post-Golgi secretory compartment designated Hex1, membranes from a trans Golgi network-like compartment, endoplasmic reticulum and a group of putative lysosomal membranes containing cathepsin B. Comparable fractionation of carbachol-treated acini showed that stimulation caused redistributions of membrane-associated
kinesin
, the secretory enzyme beta-hexosaminidase, and galactosyltransferase that appeared to reflect both a reorganization within the Golgi complex and a return of material to the Golgi complex from the secretory pathway. Our findings that carbachol promotes activation of lacrimal acinar
kinesin
as well as major shifts in
kinesin
-membrane association within the secretory pathway suggests that
kinesin
plays a major role in secretory vesicle assembly, apical secretion, and/or secretory vesicle membrane recycling in the lacrimal gland.
...
PMID:Cholinergic stimulation of lacrimal acinar cells promotes redistribution of membrane-associated kinesin and the secretory protein, beta-hexosaminidase, and increases kinesin motor activity. 917 47
The MLK (mixed lineage) ser/thr kinases are most closely related to the MAP kinase kinase kinase family. In addition to a kinase domain, MLK1, MLK2 and MLK3 each contain an SH3 domain, a leucine zipper domain and a potential Rac/Cdc42 GTPase-binding (CRIB) motif. The C-terminal regions of the proteins are essentially unrelated. Using yeast two-hybrid analysis and in vitro dot-blots, we show that MLK2 and MLK3 interact with the activated (
GTP
-bound) forms of Rac and Cdc42, with a slight preference for Rac. Transfection of MLK2 into COS cells leads to strong and constitutive activation of the JNK (c-Jun N-terminal kinase) MAP kinase cascade, but also to activation of ERK (extracellular signal-regulated kinase) and p38. When expressed in fibroblasts, MLK2 co-localizes with active, dually phosphorylated JNK1/2 to punctate structures along microtubules. In an attempt to identify proteins that affect the activity and localization of MLK2, we have screened a yeast two-hybrid cDNA library. MLK2 and MLK3 interact with members of the KIF3 family of
kinesin
superfamily motor proteins and with KAP3A, the putative targeting component of KIF3 motor complexes, suggesting a potential link between stress activation and motor protein function.
...
PMID:The MAP kinase kinase kinase MLK2 co-localizes with activated JNK along microtubules and associates with kinesin superfamily motor KIF3. 942 49
Microtubule-dependent motors of the
kinesin
family convert the energy from ATP hydrolysis into mechanical work in order to transport vesicles and organelles along microtubules. The motor domains of several kinesins have been solved by X-ray diffraction, but the conformational changes associated with force development remain unknown. Here we describe conformational properties of
kinesin
that might be related to the mechanism of action. First, we have evaluated the conformational variability among all known
kinesin
structures and find they are concentrated in six areas, most of which are functionally important either in microtubule binding or in linking the core motor to the stalk. Secondly, we show that there is an important difference between kinesins when compared with myosins or GTPases (with which
kinesin
motor domains bear structural and catalytic similarities); in the diphosphate-state (with bound ADP), all kinesins show a 'tight' nucleotide-binding pocket, comparable with myosin or GTPases in the triphosphate state, whose nucleotide-binding pockets become open, or 'loose', following nucleotide hydrolysis. Thus,
kinesin
-ADP appears to be in a tense state, resembling that observed in myosin-ATP or p21ras-
GTP
.
...
PMID:Motor proteins of the kinesin family. Structures, variations, and nucleotide binding sites. 1023 57
In Drosophila melanogaster the staufen gene encodes an RNA-binding protein that is essential for the correct localization of certain nurse cell-derived transcripts in oocytes. Although the mechanism underlying mRNA localization is unknown, mRNA-staufen complexes have been shown to move in a microtubule-dependent manner, and it has been suggested that staufen associates with a motor protein which generates the movement. We have investigated this possibility using Notonecta glauca in which nurse cells also supply the oocytes with mRNA, but via greatly extended nutritive tubes comprised of large aggregates of parallel microtubules. Using a staufen peptide antibody and RNA probes we have identified a staufen-like protein, which specifically binds double-stranded RNA, in the nutritive tubes of Notonecta. We show that while the staufen-like protein does not co-purify with microtubules from ovaries using standard procedures it does so under conditions of motor-entrapment, specifically in the presence of AMP-PNP. We also show that the staufen-like protein is subsequently removed by ATP and
GTP
, but not ADP. Nucleotide-dependent binding to microtubules is typical of a motor-mediated interaction and the pattern of attachment and detachment of the staufen-like protein correlates with that of a kinesin protein within the ovaries. Our findings indicate that the staufen-like RNA-binding protein attaches to, and is transported along, Notonecta ovarian microtubules by a
kinesin
motor.
...
PMID:A staufen-like RNA-binding protein in translocation channels linking nurse cells to oocytes in Notonecta shows nucleotide-dependent attachment to microtubules. 1044 89
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