EC:3.6.4.4 - FACTA Search

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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)

A method has been developed for the purification of bovine adrenal kinesin combining ion exchange chromatography on phosphocellulose and Mono-Q (FPLC), affinity binding to microtubules in the presence of tripolyphosphate and gel filtration on Superose 6 (FPLC). From 100 g of tissue this procedure yields 200 micrograms of a remarkably pure kinesin as assayed by SDS-PAGE and electron microscopy of rotary shadowed specimens. The enzyme has a Ca++ ATPase of 0.4 mumol/min per mg and a Mg++ ATPase of 0.03 mumol/min per mg in the absence of microtubules. The addition of microtubules (5 microM) activates the Mg++ ATPase activity by almost 70-fold to a value of 1.9 mumol/min per mg. This purification procedure results in a fairly large amount of a remarkably pure adrenal kinesin with high specific activity which is an important improvement over the method previously available.
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PMID:An improved method for the purification of kinesin from bovine adrenal medulla. 156 Jan 82

A microtubule-enriched fraction was prepared from bovine white matter, and kinesin and other microtubule-associated proteins were extracted from taxol-stabilized microtubules by homogenization and ultracentrifugation in the presence of nucleotides (guanosine triphosphate and adenosine triphosphate). The kinesin-enriched fractions were subjected to preparative SDS-PAGE, and the band representing the kinesin heavy chain was excised, homogenized, and subjected to partial enzymatic digestion with Staphylococcus aureus V8 protease. Four peptides were selected for sequence analysis and compared to the previously published sequence for the Drosophila kinesin heavy chain (Yang JT, Laymon RA, Goldstein LSB, Cell 56:879-889, 1989). All four peptides matched closely with portions of the Drosophila sequence corresponding to the central, alpha-helical domain. Total amino acid composition analysis of bovine kinesin heavy chain also reveals a high degree of homology to the Drosophila sequence.
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PMID:Kinesin heavy chain from bovine brain and Drosophila appear to be highly homologous molecules. 182 44

The protocols described here have proved to be an effective method for preparation of kinesin suitable for biochemical, biophysical, and immunological analyses. Beginning with a 1.2-liter cytosolic extract of bovine brain containing approximately 24 g of protein, 2 mg of approximately 95% pure kinesin can be obtained within 2 days. There are four major enrichment steps, as summarized in Fig. 6 and Table I. Based on quantitative SDS-PAGE, we estimate that these steps result in a purification of more than 300-fold. The ATPase activity in the presence of microtubules is substantial, and the kinetic properties are consistent with cellular levels of ATP (Km approximately 0.2 mM) and microtubules (apparent Km for activation approximately 1.9 microM) in the axon. Minor modifications should allow the procedure to be enlarged or reduced in scale, or adapted to the brains of other vertebrate species. The availability of such procedures will greatly facilitate future studies of the cell and molecular biology of kinesin.
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PMID:Purification of kinesin from bovine brain and assay of microtubule-stimulated ATPase activity. 185 39

We have isolated and compared the 116-kilodalton (kDa) kinesin heavy chain from DU 145 human prostatic tumor cells and bovine brain. Comparative sodium dodecyl sulfate - polyacrylamide gel electrophoreses (SDS-PAGE), Western blots, and proteolytic digestion analysis all showed that the 116-kDa polypeptides from both sources were indistinguishable. Polyclonal antibodies raised against sea urchin kinesin cross-reacted with both brain and DU 145 kinesin on Western blots. SDS-PAGE and A-5m chromatographic studies indicated that kinesin forms a quarternary heteropolymer of approximately 400 kDa. DU 145 cells had three proteins of 116, 72, and 64 kDa forming the heteropolymer, in a 2:1:1 ratio, whereas brain cells appeared to have equimolar amounts of the 116-kDa heavy chain and a 64-kDa light chain.
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PMID:Properties of kinesin isolated from human prostatic DU 145 tumor cells and bovine brain. 214 May 13

Kinesin was isolated from bovine intradural nerve roots and conjugated with 5-(iodoacetamido)fluorescein. The modified kinesin (AF-kinesin) supports the movement of organelles along microtubules at rates comparable with those obtained using unmodified kinesin. AF-kinesin was purified by high-performance liquid chromatography. SDS/PAGE analysis of the purified fraction showed the presence of a fluorescent band at the position of the 125-kDa kinesin heavy chain. This protein promoted microtubule gliding with MgATP and with MgGTP at rates comparable to those of unlabelled kinesin. AF-kinesin had a fluorescein/protein ratio of one. Video microscopy at low light levels was used to monitor the interactions between the analogue and microtubules. AF-kinesin binds to microtubules in the presence of adenosine 5'-[beta, gamma-imino]triphosphate or ADP. Brief incubation of the microtubule. AF-kinesin complex with 10 mM ATP or GTP completely removes the labelled molecule. AF-kinesin can be inactivated in its ability to cause microtubule gliding by irradiating it with light that bleaches the bound fluorophore. When the protein is damaged in this way it still binds to microtubules and does so in the presence of ATP.
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PMID:Characterization of an active, fluorescein-labelled kinesin. 214 15

An antiserum which binds kinesin specifically on Western blots was used to determine the distribution and abundance of chicken kinesin by correlated immunoblotting and immunolocalization. Quantitative immunoblotting showed that the abundance of kinesin varied widely in different cell and tissue types, from 0.039% of total protein in epidermal fibroblasts to 0.309% in sympathetic neurons; of the types examined, only red blood cells lacked detectable kinesin. The molar ratio of tubulin/kinesin varied over a narrower range. To analyze the intracellular distribution of kinesin, cultured fibroblasts were fractionated by sequential extraction with saponin-, Triton X-100-, and SDS-containing buffer. Quantitative blotting of the resulting cell fractions indicated that 68% of fibroblast kinesin is in soluble form, 32% is membrane- or organelle-associated, and none is detectable in cytoskeletal fractions. To visualize this distribution, cells treated by the same extraction protocol were immunofluorescently stained with antikinesin and antitubulin. Without extraction, kinesin staining was located throughout cultured neurons and fibroblasts. However, when fibroblasts were extracted with saponin or Brij 58 before fixation, subsequent staining revealed that the remaining kinesin fraction was colocalized with interphase microtubules, but not with mitotic spindles. Prefixation extraction with Triton abolished antikinesin staining. These data suggest that kinesin may play a role in tubovesicular movement but provide no evidence for a role in mitosis.
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PMID:The distribution, abundance and subcellular localization of kinesin. 252 63

In the present work we have studied the subunit composition of kinesin, the microtubule-activated, mechanochemical ATPase, isolated from bovine brain. Polypeptides with mol. wts of 120 and 62 kd are the major components of the kinesin preparation. These polypeptides could not be separated by electrophoresis under nondenaturing conditions or by FPLC on a MonoQ column, and are therefore assumed to form a tight complex. As shown by immunoblotting with polyclonal and monoclonal antibodies to the 120-kd polypeptide and by one-dimensional peptide mapping, the 62-kd polypeptide does not appear to be a proteolytic product of the 120-kd component. Densitometric scanning of polyacrylamide-SDS gels shows that these polypeptides are present in a complex in a 1:1 molar ratio. The mol. wt of native kinesin was studied by sedimentation equilibrium and was found to be 386 +/- 14 kd. A comparison of the mol. wts of individual polypeptides with the mol. wt of the intact molecule indicates that the native molecule contains two 120-kd subunits and two 62-kd subunits.
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PMID:The quaternary structure of bovine brain kinesin. 313 Feb 48

Serum autoantibodies from a patient with autoantibodies directed against the Golgi complex were used to screen clones from a HepG2 lambda Zap cDNA library. Three related clones, designated SY2, SY10, and SY11, encoding two distinct polypeptides were purified for further analysis. Antibodies affinity purified by adsorption to the lambda Zap-cloned recombinant proteins and antibodies from NZW rabbits immunized with purified recombinant proteins reproduced Golgi staining and bound two different proteins, 95 and 160 kD, from whole cell extracts. The SY11 protein was provisionally named golgin-95 and the SY2/SY10 protein was named golgin-160. The deduced amino acid sequence of the cDNA clone of SY2 and SY11 represented 58.7- and 70-kD proteins of 568 and 620 amino acids. The in vitro translation products of SY2 and SY11 cDNAs migrated in SDS-PAGE at 65 and 95 kD, respectively. The in vitro translated proteins were immunoprecipitated by human anti-Golgi serum or immune rabbit serum, but not by normal human serum or preimmune rabbit serum. Features of the cDNA suggested that SY11 was a full-length clone encoding golgin-95 but SY2 and SY10 together encoded a partial sequence of golgin-160. Analysis of the SY11 recombinant protein identified a leucine zipper spanning positions 419-455, a glutamic acid-rich tract spanning positions 322-333, and a proline-rich tract spanning positions 67-73. A search of the SwissProt data bank indicated sequence similarity of SY11 to human restin, the heavy chain of kinesin, and the heavy chain of myosin. SY2 shared sequence similarity with the heavy chain of myosin, the USO1 transport protein from yeast, and the 150-kD cytoplasmic dynein-associated polypeptide. Sequence analysis demonstrated that golgin-95 and golgin-160 share 43% sequence similarity and, therefore, may be functionally related proteins.
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PMID:Molecular characterization of two human autoantigens: unique cDNAs encoding 95- and 160-kD proteins of a putative family in the Golgi complex. 831 94

We have demonstrated the presence of kinesin in the secretory pancreatic tissue using SDS-PAGE, immunoblot and immunoelectron microscopy techniques. Polyclonal antibodies were raised against the rat brain kinesin heavy chain and affinity-purified. Immunoblot studies showed that these antibodies were bound to a 116 kDa protein found in rat pancreas crude extracts and in partially purified kinesin fractions. Kinesin identification was also performed by a cosedimentation procedure based on its strong binding to microtubules in the presence of sodium fluoride. The microtubule-kinesin complex was observed by immunoelectron microscopy gold staining. The reversible association of kinesin with microtubules was generated by MgATP.
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PMID:Rat pancreas kinesin: identification and potential binding to microtubules. 833 81

We showed previously that stable, detyrosinated (Glu) microtubules function to localize vimentin intermediate filaments in fibroblasts (Gurland, G., and Gundersen, G. G. (1995) J. Cell Biol. 131, 1275-1290). To identify candidate proteins that mediate the Glu microtubule-vimentin interaction, we incubated microtubules with microtubule-interacting proteins and saturating levels of antibodies to Glu or tyrosinated (Tyr) tubulin. Antibodies to Glu tubulin prevented the microtubule binding of kinesin obtained from fibroblast or brain extracts more effectively than antibodies to Tyr tubulin. Scatchard plot analysis showed that kinesin heads bound to Glu microtubules with an approximately 2.8-fold higher affinity than to Tyr microtubules. Purified brain kinesin cosedimented with vimentin, but not with neurofilaments, indicating that kinesin specifically associates with vimentin without accessory molecules. Kinesin binding to vimentin was not sensitive to ATP, and kinesin heads failed to bind to vimentin. By SDS-polyacrylamide gel electrophoresis, a kinesin heavy chain of approximately 120 kDa and a light chain of approximately 64 kDa were detected in vimentin/kinesin pellets. The light chain reacted with a general kinesin light chain antibody, but not with two other antibodies that recognize the two known isoforms of kinesin light chain in brain, suggesting that the kinesin involved in binding to vimentin may be a specific one. These results demonstrate a kinesin-based mechanism for the preferential interaction of vimentin with detyrosinated microtubules.
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PMID:Kinesin is a candidate for cross-bridging microtubules and intermediate filaments. Selective binding of kinesin to detyrosinated tubulin and vimentin. 954 18

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