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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 an ubiquitous heterotetrameric microtubule-based motor which translocates membrane-bound organelles. Since organelle motility and motor protein function can be regulated by components of signaling pathways, the ability of purified bovine brain
kinesin
(
kinesin
) to be phosphorylated and to recognize calmodulin (CaM) was tested. Extensively purified "kinesin" was found to consist of several forms of both heavy (KHC) and light (
KLC
) chains. Phosphorylation of
kinesin
by a variety of protein kinases was examined; cAMP-dependent protein kinase (cAMP-PK) was the most active enzyme leading to the incorporation of up to 8 mol P/mol
kinesin
. Phosphorylation occurred predominantly on the KLCs and led to substantial acidic pI shifts. Peptide maps indicated that multiple phosphorylation sites exist on each
KLC
. Incubation of
kinesin
in vitro with protein kinase C (PKC) led to the phosphorylation of both KHCs and KLCs. In vivo phosphorylation of KHC and KLCs was demonstrated by immunoprecipitation of [32P]-labeled
kinesin
from cultured rat hippocampal pyramidal neurons;
kinesin
phosphorylation was stimulated by 8-chlorophenyl-thio-cAMP or 12-O-tetradecanoylphorbol-13-acetate. Native bovine brain
kinesin
was shown to bind 125I-CaM by nucleotide-dependent pelleting with stable microtubules. Specific calcium-dependent binding of 125I-CaM to KLCs but not KHC was found using a ligand blotting assay. cAMP-PK phosphorylated
kinesin
bound 125I-CaM less well than untreated protein in both ligand blotting and microtubule-pelleting paradigms. Calcium-dependent binding of CaM to
kinesin
inhibited the ATPase activity of native
kinesin
but not of cAMP-PK phosphorylated
kinesin
. These results suggest that the KLCs have a regulatory function and integrate information coming from diverse signaling pathways to modulate the activity and function of
kinesin
.
...
PMID:Calmodulin binding to and cAMP-dependent phosphorylation of kinesin light chains modulate kinesin ATPase activity. 838 85
The
kinesin
heterotetramer consists of two heavy and two light chains. Kinesin light chains have been proposed to act in binding motor protein to cargo, but evidence for this has been indirect. A library of monoclonal antibodies directed against conserved epitopes throughout the kinesin light chain sequence were used to map light chain functional architecture and to assess physiological functions of these domains. Immunocytochemistry with all antibodies showed a punctate pattern that was detergent soluble. A monoclonal antibody (
KLC
-All) made against a highly conserved epitope in the tandem repeat domain of light chains inhibited fast axonal transport in isolated axoplasm by decreasing both the number and velocity of vesicles moving, whereas an antibody against a conserved amino terminus epitope had no effect.
KLC
-All was equally effective at inhibiting both anterograde and retrograde transport. Neither antibody inhibited microtubule-binding or ATPase activity in vitro.
KLC
-All was unique among antibodies tested in releasing
kinesin
from purified membrane vesicles, suggesting a mechanism of action for inhibition of axonal transport. These results provide further evidence that conventional
kinesin
is a motor for fast axonal transport and demonstrate that
kinesin
light chains play an important role in
kinesin
interaction with membranes.
...
PMID:Immunochemical analysis of kinesin light chain function. 924 47
Kinesin is a heterotetramer composed of two 115-kD heavy chains and two 58-kD light chains. The microtubule motor activity of
kinesin
is performed by the heavy chains, but the functions of the light chains are poorly understood. Mutations were generated in the Drosophila gene Kinesin light chain (Klc), and the phenotypic consequences of loss of Klc function were analyzed at the behavioral and cellular levels. Loss of Klc function results in progressive lethargy, crawling defects, and paralysis followed by death at the end of the second larval instar. Klc mutant axons contain large aggregates of membranous organelles in segmental nerve axons. These aggregates, or organelle jams (Hurd, D.D., and W.M. Saxton. 1996. Genetics. 144: 1075-1085), contain synaptic vesicle precursors as well as organelles that may be transported by
kinesin
, kinesin-like protein 68D, and cytoplasmic dynein, thus providing evidence that the loss of Klc function blocks multiple pathways of axonal transport. The similarity of the Klc and Khc (. Cell 64:1093-1102; Hurd, D.D., and W.M. Saxton. 1996. Genetics 144: 1075-1085) mutant phenotypes indicates that
KLC
is essential for
kinesin
function, perhaps by tethering KHC to intracellular cargos or by activating the
kinesin
motor.
...
PMID:Kinesin light chains are essential for axonal transport in Drosophila. 954 22
Conventional
kinesin
,
kinesin
-I, is a heterotetramer of two kinesin heavy chain (KHC) subunits (KIF5A, KIF5B, or KIF5C) and two kinesin light chain (KLC) subunits. While KHC contains the motor activity, the role of KLC remains unknown. It has been suggested that KLC is involved in either modulation of KHC activity or in cargo binding. Previously, we characterized KLC genes in mouse (Rahman, A., D.S. Friedman, and L.S. Goldstein. 1998. J. Biol. Chem. 273:15395-15403). Of the two characterized gene products,
KLC1
was predominant in neuronal tissues, whereas KLC2 showed a more ubiquitous pattern of expression. To define the in vivo role of KLC, we generated
KLC1
gene-targeted mice. Removal of functional
KLC1
resulted in significantly smaller mutant mice that also exhibited pronounced motor disabilities. Biochemical analyses demonstrated that
KLC1
mutant mice have a pool of KIF5A not associated with any known KLC subunit. Immunofluorescence studies of sensory and motor neuron cell bodies in
KLC1
mutants revealed that KIF5A colocalized aberrantly with the peripheral cis-Golgi marker giantin in mutant cells. Striking changes and aberrant colocalization were also observed in the intracellular distribution of KIF5B and beta'-COP, a component of COP1 coatomer. Taken together, these data best support models that suggest that
KLC1
is essential for proper KHC activation or targeting.
...
PMID:Defective kinesin heavy chain behavior in mouse kinesin light chain mutants. 1049 91
The underlying genetic cause is known for only 10-20% of familial motor neuron disease (MND). Thus the genes involved in the aetiology of 80-90% of familial MND remain to be determined, and animal models are powerful tools for undertaking this task. We have mapped a heritable form of motor neuron degeneration in the mouse to a region that has homology to human chromosome 14q32.1-qter. This region contains the kinesin light chain gene (
KLC1
), which is a candidate for involvement in motor neuron degeneration because of its function in the motor-protein
kinesin
, and its neuronal expression. To investigate the role of
KLC1
in a mouse motor neuron degeneration mutant that we are studying, we have identified mouse Klc1 gene sequences and mapped them with respect to our mutant locus. We have also investigated
KLC1
in human patients with familial MND. Based on recombination and the absence of mutations in the coding region of
KLC1
, this gene can be excluded as a candidate gene in our mouse mutation and, where we have investigated, it is normal in human familial MND.
...
PMID:The kinesin light chain gene: its mapping and exclusion in mouse and human forms of inherited motor neuron degeneration. 1050 49
We analyzed the mechanism of axonal transport of the amyloid precursor protein (APP), which plays a major role in the development of Alzheimer's disease. Coimmunoprecipitation, sucrose gradient, and direct in vitro binding demonstrated that APP forms a complex with the microtubule motor, conventional
kinesin
(
kinesin
-I), by binding directly to the TPR domain of the kinesin light chain (KLC) subunit. The estimated apparent Kd for binding is 15-20 nM, with a binding stoichiometry of two APP per KLC. In addition, association of APP with microtubules and axonal transport of APP is greatly decreased in a gene-targeted mouse mutant of the neuronally enriched
KLC1
gene. We propose that one of the normal functions of APP may be as a membrane cargo receptor for
kinesin
-I and that KLC is important for
kinesin
-I-driven transport of APP into axons.
...
PMID:Axonal transport of amyloid precursor protein is mediated by direct binding to the kinesin light chain subunit of kinesin-I. 1114 55
Kinesins are tetrameric motor molecules, consisting of two
kinesin
heavy chains (KHCs) and two
kinesin
light chains (KLCs) that are involved in transport of cargo along microtubules. The function of the light chain may be in cargo binding and regulation of
kinesin
activity. In the mouse, two KLC genes,
KLC1
and KLC2, had been identified.
KLC1
plays a role in neuronal transport, and KLC2 appears to be more widely expressed. We report the cloning from a testicular cDNA expression library of a mammalian light chain, KLC3. The KLC3 gene is located in close proximity to the ERCC2 gene. KLC3 can be classified as a genuine light chain: it interacts in vitro with the KHC, the interaction is mediated by a conserved heptad repeat sequence, and it associates in vitro with microtubules. In mouse and rat testis, KLC3 protein expression is restricted to round and elongating spermatids, and KLC3 is present in sperm tails. In contrast,
KLC1
and KLC2 can only be detected before meiosis in testis. Interestingly, the expression profiles of the three known KHCs and KLC3 differ significantly: Kif5a and Kif5b are not expressed after meiosis, and Kif5c is expressed at an extremely low level in spermatids but is not detectable in sperm tails. Our characterization of the KLC3 gene suggests that it carries out a unique and specialized role in spermatids.
...
PMID:Kinesin light-chain KLC3 expression in testis is restricted to spermatids. 1131 35
Conventional
kinesin
is a microtubule-based molecular motor involved in the transport of membranous and non-membranous cargoes. The
kinesin
holoenzyme exists as a heterotetramer, consisting of two heavy chain and two light chain subunits. It is thought that one function of the light chains is to interact with the cargo. Alternative splicing of kinesin light chain pre-mRNA has been observed in lower organisms, although evidence for alternative splicing of the human gene has not been reported. We have identified 19 variants of the human KNS2 gene (
KLC1
) that are generated by alternative splicing of downstream exons, but calculate that KNS2 has the potential to produce 285 919 spliceforms. Corresponding spliceforms of the mouse
KLC1
gene were also identified. The alternative exons are all located 3' of exon 12 and the novel spliceforms produce both alternative carboxy termini and alternative 3' untranslated regions. The observation of multiple light chain isoforms is consistent with their proposed role in specific cargo attachment.
...
PMID:Alternatively spliced products of the human kinesin light chain 1 (KNS2) gene. 1283
Previous work demonstrated that intracellular enveloped vaccinia virus virions use microtubules to move from the site of membrane wrapping to the cell periphery. The mechanism and direction of intracellular virion movement predicted that viral proteins directly or indirectly interact with the microtubule motor protein
kinesin
. The yeast two-hybrid assay was used to test for interactions between the light chain of
kinesin
and the cytoplasmic tails from five viral envelope proteins. We found that the N-terminal tetratricopeptide repeat region of the kinesin light chain (
KLC
-TPR) interacted with the cytoplasmic tail of the viral A36R protein. A series of C- and N-terminal truncations of A36R further defined a region from residues 81 to 111 that was sufficient for interaction with
KLC
-TPR. Interactions were confirmed by using pull-down assays with purified glutathione S-transferase (GST)-A36R and (35)S-labeled
KLC
-TPR. The defined region on A36R for interaction with
kinesin
overlaps the recently defined region (residues 91 to 111) for interaction with the A33R envelope protein. The yeast three-hybrid system was used to demonstrate that expression of A33R interrupted the interaction between A36R and
KLC
-TPR, indicating that the binding of A36R is mutually exclusive to either A33R or
kinesin
. Pull-down assays with purified GST-A36R and (35)S-labeled
KLC
-TPR in the presence of competing A33R corroborated these findings. Collectively, these results demonstrated that the viral A36R protein interacts directly with the microtubule motor protein
kinesin
and that the viral protein A33R may regulate this interaction.
...
PMID:Vaccinia virus A36R membrane protein provides a direct link between intracellular enveloped virions and the microtubule motor kinesin. 1496 48
Early onset dystonia is a movement disorder caused by loss of a glutamic acid residue (Glu(302/303)) in the carboxyl-terminal portion of the AAA+ protein, torsinA. We identified the light chain subunit (
KLC1
) of
kinesin
-I as an interacting partner for torsinA, with binding occurring between the tetratricopeptide repeat domain of
KLC1
and the carboxyl-terminal region of torsinA. Coimmunoprecipitation analysis demonstrated that wild-type torsinA and
kinesin
-I form a complex in vivo. In cultured cortical neurons, both proteins co-localized along processes with enrichment at growth cones. Wild-type torsinA expressed in CAD cells co-localized with endogenous
KLC1
at the distal end of processes, whereas mutant torsinA remained confined to the cell body. Subcellular fractionation of adult rat brain revealed torsinA and
KLC
associated with cofractionating membranes, and both proteins were co-immunoprecipitated after cross-linking cytoplasmically oriented proteins on isolated rat brain membranes. These studies suggest that wild-type torsinA undergoes anterograde transport along microtubules mediated by
kinesin
and may act as a molecular chaperone regulating
kinesin
activity and/or cargo binding.
...
PMID:The early onset dystonia protein torsinA interacts with kinesin light chain 1. 1497 Jan 96
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