| scholarly article | Q13442814 |
| P6179 | Dimensions Publication ID | 1009801434 |
| P356 | DOI | 10.1038/316645A0 |
| P8608 | Fatcat ID | release_y6lg2tjn2zfejd53zpaqt6m224 |
| P698 | PubMed publication ID | 4033761 |
| P2093 | author name string | Brady ST | |
| Lasek RJ | |||
| P2860 | cites work | Mechanism of adenosine triphosphate hydrolysis by actomyosin | Q29396569 |
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| The relation of muscle biochemistry to muscle physiology | Q40289376 | ||
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| Fast axonal transport in permeabilized lobster giant axons is inhibited by vanadate | Q41542929 | ||
| Video microscopy of fast axonal transport in extruded axoplasm: a new model for study of molecular mechanisms | Q44509410 | ||
| Single microtubules from squid axoplasm support bidirectional movement of organelles | Q44551777 | ||
| Selective inhibition of retrograde axonal transport byerythro-9-[3-(-2-hydroxynonyl)]adenine | Q48771847 | ||
| Co-ordinated electron microscopy and X-ray studies of glycerinated insect flight muscle. II. Electron microscopy and image reconstruction of muscle fibres fixed in rigor, in ATP and in AMPPNP. | Q52528399 | ||
| Fast axonal transport in extruded axoplasm from squid giant axon | Q56443453 | ||
| On the significance of cross-bridges between microtubules and synaptic vesicles | Q68759112 | ||
| Effects of AMPPNP and vanadate on the mechanochemical crossbridge cycle in flagella | Q70547894 | ||
| The mechanochemical cycle of the dynein arm | Q72771487 | ||
| P433 | issue | 6029 | |
| P407 | language of work or name | English | Q1860 |
| P304 | page(s) | 645-647 | |
| P577 | publication date | 1985-08-01 | |
| P1433 | published in | Nature | Q180445 |
| P1476 | title | Attachment of transported vesicles to microtubules in axoplasm is facilitated by AMP-PNP. | |
| P478 | volume | 316 |
| Q35844553 | 1-Methyl-4-phenylpyridinium affects fast axonal transport by activation of caspase and protein kinase C |
| Q37297872 | A biosensor of local kinesin activity reveals roles of PKC and EB1 in KIF17 activation |
| Q36897049 | A developmentally regulated kinesin-related motor protein from Dictyostelium discoideum |
| Q30888689 | A kinesin medley: biochemical and functional heterogeneity |
| Q37685739 | A monoclonal antibody against kinesin inhibits both anterograde and retrograde fast axonal transport in squid axoplasm |
| Q43626542 | A novel brain ATPase with properties expected for the fast axonal transport motor |
| Q43114776 | A perspective on neuronal cell death signaling and neurodegeneration |
| Q36914275 | A protein methylation pathway in Chlamydomonas flagella is active during flagellar resorption |
| Q77315281 | A role for cyclin-dependent kinase(s) in the modulation of fast anterograde axonal transport: effects defined by olomoucine and the APC tumor suppressor protein |
| Q36221855 | A squid dynein isoform promotes axoplasmic vesicle translocation |
| Q46834640 | A unique tubulin antibody which disrupts particle movement in squid axoplasm |
| Q88909331 | An allosteric propofol-binding site in kinesin disrupts kinesin-mediated processive movement on microtubules |
| Q36235181 | Antibodies to the kinesin motor domain and CENP-E inhibit microtubule depolymerization-dependent motion of chromosomes in vitro |
| Q48588725 | Association of kinesin with characterized membrane-bounded organelles |
| Q34650081 | Backsteps induced by nucleotide analogs suggest the front head of kinesin is gated by strain |
| Q47070661 | BimC motor protein KLP61F cycles between mitotic spindles and fusomes in Drosophila germ cells |
| Q37407227 | Bovine brain kinesin is a microtubule-activated ATPase |
| Q44576099 | Copurification of kinesin polypeptides with microtubule-stimulated Mg-ATPase activity and kinetic analysis of enzymatic properties |
| Q46906896 | Costal2, a novel kinesin-related protein in the Hedgehog signaling pathway |
| Q41493510 | Cross-bridges mediate anterograde and retrograde vesicle transport along microtubules in squid axoplasm |
| Q42058874 | Cultured cell extracts support organelle movement on microtubules in vitro |
| Q41195828 | Cytoplasmic mechanisms of axonal and dendritic growth in neurons |
| Q33928067 | Delayed start-up of kinesin-driven microtubule gliding following inhibition by adenosine 5'-[beta,gamma-imido]triphosphate |
| Q36323292 | Does the introduction of a new player, the endoplasmic reticulum, create more or less confusion in understanding the mechanism(s) of pigmentary organelle translocations? |
| Q67950311 | Dynamic instability and motile events of native microtubules from squid axoplasm |
| Q36217510 | Dynamic shape changes of cytoplasmic organelles translocating along microtubules |
| Q70062895 | Dynein as a microtubule translocator in ciliary motility: current studies of arm structure and activity pattern |
| Q30538684 | Fast anterograde transport of herpes simplex virus: role for the amyloid precursor protein of alzheimer's disease |
| Q34995098 | Fast axonal transport misregulation and Alzheimer's disease |
| Q36232316 | GTP gamma S inhibits organelle transport along axonal microtubules |
| Q36215412 | Identification of a MAP 2-like ATP-binding protein associated with axoplasmic vesicles that translocate on isolated microtubules |
| Q33583755 | Identification of a kinesin-like microtubule-based motor protein in Dictyostelium discoideum |
| Q59082527 | Identification of kinesin in sea urchin eggs and evidence for its localization in the mitotic spindle |
| Q36874865 | Immunochemical analysis of kinesin light chain function |
| Q50548386 | Implementation and Tuning of an Optical Tweezers Force-Clamp Feedback System. |
| Q30501622 | In vitro motility of liver connexin vesicles along microtubules utilizes kinesin motors |
| Q42638119 | Influence of translocation track on the motion of intra-axonally transported organelles in human nerve |
| Q43802407 | Interaction between kinesin, microtubules, and microtubule-associated protein 2. |
| Q36220785 | Interactions of cytoplasmic granules with microtubules in human neutrophils |
| Q40501115 | Isolation and analysis of microtubule motor proteins. |
| Q36685835 | KIF5C S176 Phosphorylation Regulates Microtubule Binding and Transport Efficiency in Mammalian Neurons. |
| Q60065350 | Kinesin ATPase |
| Q63761952 | Kinesin does not support the motility of zinc-macrotubes |
| Q47992057 | Kinesin takes one 8-nm step for each ATP that it hydrolyzes |
| Q35605367 | Kinetic diagram and free energy diagram for kinesin in microtubule-related motility |
| Q35197168 | Meiotic chromosome distribution in Drosophila oocytes: Roles of two kinesin-related proteins |
| Q37707186 | Mitotic force generators and chromosome segregation |
| Q28583827 | Molecular genetics of kinesin light chains: generation of isoforms by alternative splicing |
| Q40689762 | Molecular motors and cell motility in the brain |
| Q35161171 | Molecular motors in axonal transport. Cellular and molecular biology of kinesin |
| Q37110065 | Molecular motors in the nervous system |
| Q41906343 | Molecular requirements for bi-directional movement of phagosomes along microtubules |
| Q37658077 | Molecular structure and function of microtubule-associated proteins |
| Q36220439 | Monoclonal antibodies to kinesin heavy and light chains stain vesicle-like structures, but not microtubules, in cultured cells |
| Q34156467 | Motors, clutches and brakes for membrane traffic: a commemorative review in honor of Thomas Kreis |
| Q52864683 | Movement of mitochondria in the ovarian trophic cord of Dysdercus intermedius (Heteroptera) resembles nerve axonal transport. |
| Q41384000 | Movements of vesicles on microtubules |
| Q75294608 | Nanometres and piconewtons: the macromolecular mechanics of kinesin |
| Q44607270 | Neuropathogenic forms of huntingtin and androgen receptor inhibit fast axonal transport |
| Q30492968 | No conventional function for the conventional kinesin? |
| Q42845817 | Not so lame after all: kinesin still walks with a hobbled head |
| Q30476771 | Nuclear localization signal peptides induce molecular delivery along microtubules |
| Q67658689 | Nucleotide specificity for the bidirectional transport of membrane-bounded organelles in isolated axoplasm |
| Q93598558 | Organelle transport. A third front for cell motility |
| Q35757837 | Pathway of processive ATP hydrolysis by kinesin. |
| Q69364575 | Preparation of microtubules from rat liver and testis: cytoplasmic dynein is a major microtubule associated protein |
| Q40277215 | Processive bidirectional motion of dynein-dynactin complexes in vitro |
| Q34128923 | Purification of kinesin-related protein complexes from eggs and embryos |
| Q69044572 | Rapid axonal transport as a chromatographic process: the use of immunocytochemistry of ligated nerves to investigate the biochemistry of anterogradely versus retrogradely transported organelles |
| Q36216604 | Reactivated melanophore motility: differential regulation and nucleotide requirements of bidirectional pigment granule transport |
| Q36213164 | Reactivation of organelle movements along the cytoskeletal framework of a giant freshwater ameba |
| Q46263502 | Regulation of kinesin-directed movements |
| Q34727922 | Release of kinesin from vesicles by hsc70 and regulation of fast axonal transport |
| Q34487798 | Selected subunits of the cytosolic chaperonin associate with microtubules assembled in vitro |
| Q48213817 | Structural and biochemical properties of kinesin heavy chain associated with rat brain mitochondria |
| Q70408180 | Studies on the mechanism of the reversal of rapid organelle transport in myelinated axons of Xenopus laevis |
| Q68985084 | Substructure of sidearms on squid axoplasmic vesicles and microtubules visualized by negative contrast electron microscopy |
| Q37563486 | Synthetic biology of minimal systems |
| Q42621442 | The C. elegans unc-104 4 gene encodes a putative kinesin heavy chain-like protein |
| Q36220739 | The distribution, abundance and subcellular localization of kinesin |
| Q69198620 | The molecular structure of adrenal medulla kinesin |
| Q36221662 | Trimeric binding of the 70-kD uncoating ATPase to the vertices of clathrin triskelia: a candidate intermediate in the vesicle uncoating reaction |
| Q60073116 | Two heads are better than one |
| Q75294598 | VE-DIC light microscopy and the discovery of kinesin |
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