Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound

---

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

The interaction of different protein systems with microtubules is a critical step in the cellular function of these organelles. The family of microtube-associated proteins (MAPs) together with a set of motor proteins such as kinesin, cytosolic dynein and dynamin are among the most clear examples of microtubule-interacting proteins. In addition, an increasing number of recently discovered proteins have been shown to interact with microtubules, even though they do not remain associated after cycles of assembly and disassembly. By using affinity columns of agarose derivatized with peptides from the C-terminal regulatory domain on tubulin, we found a 90 kDa protein that interacts with tubulin and microtubules. This protein, here designated as Mip-90, was isolated from neuroblastoma N2A and HeLa cells. It was also identified in high-speed supernatants of the neuroblastoma N-115, and non-neuronal cell lines NIH 3T3, Huh-7, HTB-145 and SW-13 vim+. Mip-90 was able to specifically bind to affinity columns of the agarose-bound beta-II(422-434) and beta-II(434-443) tubulin peptides, containing the sequences of MAP binding domains on beta-II-tubulin. Specific antibodies to Mip-90 along with an anti-beta-tubulin antibody used in double immunofluorescence experiments revealed a striking colocalization of this protein with the microtubule network. Nocodazole-treated cells showed significant changes in Mip-90 distribution as correlated to disruption of the microtubule cytoskeleton. On the other hand, Mip-90 colocalized with microtubule bundles with a perinuclear distribution in HeLa cells treated with taxol. The binding of Mip-90 to microtubules was confirmed by cosedimentation experiments. This protein also exhibited a strong affinity for a calmodulin-agarose affinity matrix, and a preparation of Mip-90 isolated by this affinity procedure was able to promote in vitro tubulin assembly into microtubules. The capacity of Mip-90 to interact with microtubules and with calmodulin suggested functional similarities to tau proteins. However, Western blot analysis using a polyclonal antibody against this protein revealed no cross-reactivity of Mip-90 with tau components. In addition, the 90 kDa protein is a thermosensitive protein. On the other hand, site-directed antibodies that recognize a repetitive binding domain on tau, MAP-2 and MAP-4 failed to react with Mip-90. The studies suggest that Mip-90, a microtubule-interacting protein incorporates into microtubules in vitro, and may play a role in modulating microtubule assembly and organization in non-neuronal cells, thus contributing to the regulation of the dynamics of the cytoskeletal network.
...
PMID:Identification of a new microtubule-interacting protein Mip-90. 766 57

Ca(2+)-calmodulin (CaM) function was selectively disrupted in a specific subset of growth cones in transgenic Drosophila embryos in which a specific enhancer element drives the expression of the kinesin motor domain fused to a CaM antagonist peptide (kinesin-antagonist or KA, which blocks CaM binding to target proteins) or CaM itself (kinesin-CaM or KC, which acts as a Ca(2+)-binding protein). In both KA and KC mutant embryos, specific growth cones exhibit dosage-dependent stalls in axon extension and errors in axon guidance, including both defects in fasciculation and abnormal crossings of the midline. These results demonstrate an in vivo function for Ca(2+)-CaM signaling in growth cone extension and guidance and suggest that Ca(2+)-CaM may in part regulate specific growth cone decisions, including when to defasciculate and whether or not to cross the midline.
...
PMID:Targeted disruption of Ca(2+)-calmodulin signaling in Drosophila growth cones leads to stalls in axon extension and errors in axon guidance. 782 40

After injury to the cell membrane, rapid resealing of the membrane occurs with little loss of intracellular contents. This process has been studied by measurement of the rate of dye loss after membrane puncture in both the sea urchin embryo and 3T3 fibroblasts. Resealing of disrupted cell membranes requires external calcium that can be antagonized by magnesium. Block of multifunctional calcium/calmodulin kinase, which regulates exocytotic vesicle availability at synapses, and of kinesin, which is required for outward-directed transport of vesicles, inhibited membrane resealing. Resealing was also inhibited by botulinum neurotoxins B and A, suggesting that the two synaptosomal-associated proteins synaptobrevin and SNAP-25 also participate in resealing. This pattern of inhibition indicates that the calcium-dependent mechanisms for cell membrane resealing may involve vesicle delivery, docking, and fusion, similar to the exocytosis of neurotransmitters.
...
PMID:Cell membrane resealing by a vesicular mechanism similar to neurotransmitter release. 790 84

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

Calmodulin, a ubiquitous calcium-binding protein, regulates many diverse cellular functions by modulating the activity of the proteins that interact with it. Here, we report isolation of a cDNA encoding a novel kinesin-like calmodulin-binding protein (KCBP) from Arabidopsis using biotinylated calmodulin as a probe. Calcium-dependent binding of the cDNA-encoded protein to calmodulin is confirmed by 35S-labeled calmodulin. Sequence analysis of a full-length cDNA indicates that it codes for a protein of 1261 amino acids. The predicted amino acid sequence of the KCBP has a domain of about 340 amino acids in the COOH terminus that shows significant sequence similarity with the motor domain of kinesin heavy chains and kinesin-like proteins and contains ATP and microtubule binding sites typical of these proteins. Outside the motor domain, the KCBP has no sequence similarity with any of the known kinesins, but contains a globular domain in the NH2 terminus and a putative coiled-coil region in the middle. By analyzing the calmodulin binding activity of truncated proteins expressed in Escherichia coli, the calmodulin binding region is mapped to a stretch of about 50 amino acid residues in the COOH terminus region of the protein. Using a synthetic peptide, the calmodulin binding domain is further narrowed down to a 23-amino acid stretch. The synthetic peptide binds to calmodulin with high affinity in a calcium-dependent manner as judged by electrophoretic mobility shift assay of calmodulin-peptide complex. The KCBP is coded by a single gene and is highly expressed in developing flowers and suspension cultured cells. Although many kinesin heavy chains and kinesin-like proteins have been extensively characterized at the biochemical and molecular level in evolutionarily distant organisms, none of them is known to bind calmodulin. The plant kinesin-like protein with a calmodulin binding domain and a unique amino-terminal region is a new member of the kinesin superfamily. The presence of a calmodulin-binding motif in a kinesin heavy chain-like protein suggests a role for calcium and calmodulin in kinesin-driven motor function(s) in plants.
...
PMID:A novel plant calmodulin-binding protein with a kinesin heavy chain motor domain. 863 37

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.
...
PMID:A novel kinesin-like protein with a calmodulin-binding domain. 870 62

Calmodulin, a calcium modulated protein, regulates the activity of several proteins that control cellular functions. A cDNA encoding a unique calmodulin-binding protein, PKCBP, was isolated from a potato expression library using protein-protein interaction based screening. The cDNA encoded protein bound to biotinylated calmodulin and 35S-labeled calmodulin in the presence of calcium and failed to bind in the presence of EGTA, a calcium chelator. The deduced amino acid sequence of the PKCBP has a domain of about 340 amino acids in the C-terminus that showed significant sequence similarity with the kinesin heavy chain motor domain and contained conserved ATP- and microtubule-binding sites present in the motor domain of all known kinesin heavy chains. Outside the motor domain, the PKCBP showed no sequence similarity with any of the known kinesins, but contained a globular domain in the N-terminus and a putative coiled-coil region in the middle. The calmodulin-binding region was mapped to a stretch of 64 amino acid residues in the C-terminus region of the protein. The gene is differentially expressed with the highest expression in apical buds. A homolog of PKCBP from Arabidopsis (AKCBP) showed identical structural organization indicating that kinesin heavy chains that bind to calmodulin are likely to exist in other plants. This paper presents evidence that the motor domain has microtubule stimulated ATPase activity and binds to microtubules in a nucleotide-dependent manner. The kinesin heavy chain-like calmodulin-binding protein is a new member of the kinesin superfamily as none of the known kinesin heavy chains contain a calmodulin-binding domain. The presence of a calmodulin-binding motif and a motor domain in a single polypeptide suggests regulation of kinesin heavy chain driven motor function(s) by calcium and calmodulin.
...
PMID:A plant kinesin heavy chain-like protein is a calmodulin-binding protein. 875 76

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.
...
PMID:In vitro motility of AtKCBP, a calmodulin-binding kinesin protein of Arabidopsis. 899 Feb 7

Kinesin-like calmodulin-binding protein (KCBP) is a recently identified novel kinesin-like protein that appears to be unique to and ubiquitous in plants. KCBP is distinct from all other known KLPs in having a calmodulin-binding domain adjacent to its motor domain. We have used different regions of KCBP to study its interaction with tubulin subunits and the regulation of this interaction by Ca(2+)-calmodulin. The results show that the carboxy-terminal part of the KCBP, with or without calmodulin-binding domain, binds to tubulin subunits and this binding is sensitive to nucleotides. In the presence of Ca(2+)-calmodulin the motor with calmodulin-binding domain does not bind to tubulin. This Ca(2+)-calmodulin modulation is abolished in the presence of antibodies specific to the calmodulin-binding domain of KCBP. Similar binding studies with the carboxy-terminal part of KCBP lacking the calmodulin-binding domain show no effect of Ca(2+)-calmodulin. These results indicate that Ca(2+)-calmodulin modulates the interaction of KCBP with tubulin subunits and this modulation is due to the calmodulin-binding domain in the KCBP. Calcium-dependent calmodulin modulation of KCBP interaction with tubulin suggests regulation of KCBP function by calcium, the first such regulation of a kinesin heavy chain among all the known kinesin-like proteins.
...
PMID:Interaction of Arabidopsis kinesin-like calmodulin-binding protein with tubulin subunits: modulation by Ca(2+)-calmodulin. 941 53

The cloning and characterization of a novel kinesin-like protein (kinesin-like calmodulin-binding protein, KCBP) from Arabidopsis and other plants has recently been described. Unlike all other known kinesin-like proteins, KCBP interacts with calmodulin in the presence of micromolar calcium. An antibody specific to KCBP was raised using a calmodulin-binding synthetic peptide that is unique to KCBP. The KCBP antibody detected a single protein of about 140 kDa in Arabidopsis and tobacco, the size predicted from cDNA sequences. In synchronized cell cultures, the amount of KCBP was abundant during M-phase and very low in interphase. To get some insight into the function of this novel motor protein, KCBP in Arabidopsis and tobacco cells was localized by indirect immunofluorescence microscopy using affinity-purified anti-KCBP antibody. The KCBP was localized to the preprophase band, the mitotic spindle and the phragmoplast. The association of KCBP with microtubule arrays in dividing cells suggests that this minus-end-directed microtubule motor protein is likely to be involved in the formation of these microtubule arrays and/or functions associated with these structures.
...
PMID:Localization of a kinesin-like calmodulin-binding protein in dividing cells of Arabidopsis and tobacco. 945 Mar 47


1 2 3 4 5 6 Next >>

---