| scholarly article | Q13442814 |
| P50 | author | Harry Malech | Q42654598 |
| P2093 | author name string | J I Gallin | |
| R K Root | |||
| P2860 | cites work | Rings of intermediate (100 A) filament bundles in the perinuclear region of vascular endothelial cells. Their mobilization by colcemid and mitosis | Q32127729 |
| Role of microtubule assembly in lysosomal enzyme secretion from human polymorphonuclear leukocytes. A reevaluation | Q36198573 | ||
| Transport of sodium, potassium, and calcium across rabbit polymorphonuclear leukocyte membranes. Effect of chemotactic factor | Q36198645 | ||
| Interactions of actin, myosin, and an actin-binding protein of rabbit pulmonary macrophages. III. Effects of cytochalasin B | Q39789037 | ||
| Phagocytosis (third of three parts). | Q39938990 | ||
| Inhibition of phagocytosis and plasma membrane mobility of the cultivated macrophage by cytochalasin B. Role of subplasmalemmal microfilaments | Q41182472 | ||
| Leucocyte chemotaxis: physiological considerations and abnormalities | Q44999955 | ||
| Interaction of drugs with microtubule proteins | Q47833044 | ||
| Granulocyte chemotaxis: an improved in vitro assay employing 51 Cr-labeled granulocytes | Q48015280 | ||
| Kinetic analysis of chemotactic factor generation in human serum via activation of the classical and alternate complement pathways | Q50229942 | ||
| Cytochalasin B. IV. Inhibition and stimulation of chemotaxis of rabbit and human polymorphonuclear leukocytes | Q50969139 | ||
| Radioimmunoassay for colchicine in plasma and urine | Q67749819 | ||
| Analysis of individual leucocyte behavior during chemotaxis | Q69155871 | ||
| Locomotion of human polymorphonuclear leucocytes | Q69183594 | ||
| Polymorphonuclear leukocyte motility in vitro. IV. colchicine inhibition of chemotactic activity formation after phagocytosis of urate crystals | Q71491725 | ||
| Colchicine inhibition of chemotaxis | Q72637988 | ||
| Leucocyte locomotion and its inhibition by antimitotic drugs | Q93753452 | ||
| P433 | issue | 3 | |
| P407 | language of work or name | English | Q1860 |
| P921 | main subject | actin filament | Q329638 |
| chemotaxis | Q658145 | ||
| human neutrophil | Q101405102 | ||
| P304 | page(s) | 666-693 | |
| P577 | publication date | 1977-12-01 | |
| P1433 | published in | Journal of Cell Biology | Q1524550 |
| P1476 | title | Structural analysis of human neutrophil migration. Centriole, microtubule, and microfilament orientation and function during chemotaxis | |
| P478 | volume | 75 |
| Q66973800 | Abnormal leukocyte electrophoretic mobility in myotonic dystrophy |
| Q66869700 | Activation of normal genes in malignant cells: Activation of chemotaxis in relation to other stages of normal differentiation in myeloid leukemia |
| Q41674319 | Aggregation of microtubule initiation sites preceding neurite outgrowth in mouse neuroblastoma cells |
| Q41364904 | Alterations of new methylated phospholipid synthesis in the plasma membranes of macrophages exposed to chemoattractants |
| Q69425507 | Altering the vector of polarity of BHK syncytia changes their motile behavior |
| Q69938218 | Aortic intimal monocyte recruitment in the normo and hypercholesterolemic baboon (Papio cynocephalus). An ultrastructural study: implications in atherogenesis |
| Q37027480 | Appearance of Fc receptors on polymorphonuclear leukocytes after migration and their role in phagocytosis |
| Q41445895 | Ascorbic acid metabolism in diabetes mellitus |
| Q41032519 | Association of centrioles with clusters of apical vesicles in mitotic thyroid epithelial cells. Are centrioles involved in directing secretion? |
| Q77863770 | C-reactive protein inhibits chemotactic peptide-induced p38 mitogen-activated protein kinase activity and human neutrophil movement |
| Q43172911 | CD25 T-lymphocytes induce CD11b on eosinophils in allergic nasal mucosa |
| Q39373105 | Calcium Signalling during Chemotaxis |
| Q36058810 | Cell biology of leukocyte abnormalities--membrane and cytoskeletal function in normal and defective cells. A review |
| Q39286767 | Cell elastimetry in the study of normal and abnormal movement of human neutrophils |
| Q30442416 | Cell polarity: an examination of its behavioral expression and its consequences for polymorphonuclear leukocyte chemotaxis |
| Q40762875 | Centrosome behavior in motile HGF-treated PtK2 cells expressing GFP-gamma tubulin |
| Q41584500 | Centrosome repositioning immediately following karyokinesis and prior to cytokinesis |
| Q35756405 | Characteristics of oedema formation induced by N-formyl-methionyl-leucyl-phenylalanine in rabbit skin |
| Q41449726 | Chemoattraction and chemotaxis in Dictyostelium discoideum: myxamoeba cannot read spatial gradients of cyclic adenosine monophosphate |
| Q41465756 | Chemotactic peptide-induced changes in neutrophil actin conformation |
| Q36916944 | Chemotactic peptide-induced changes of intermediate filament organization in neutrophils during granule secretion: role of cyclic guanosine monophosphate |
| Q36199157 | Chemotaxis by polymorphonuclear leukocytes |
| Q68933772 | Control of cell locomotion: perturbation with an antibody directed against specific glycoproteins |
| Q51733464 | Control of endothelial cell polarity and sprouting angiogenesis by non-centrosomal microtubules. |
| Q39632577 | Cytoplasmic strains and strain rates in motile polymorphonuclear leukocytes |
| Q41586239 | Cytoskeletal agents inhibit motility and adherence of human tumor cells |
| Q36394996 | Development of chemotactic responsiveness in myeloid precursor cells: studies with a human leukemia cell line |
| Q52197521 | Development of polarity in human erythroleukemia cells: roles of membrane ruffling and the centrosome. |
| Q67552478 | Distribution of detyrosinated microtubules in motile NRK fibroblasts is rapidly altered upon cell-cell contact: implications for contact inhibition of locomotion |
| Q41367440 | Distribution of microtubule organizing centers in migrating sheets of endothelial cells |
| Q69054303 | Distribution of multiple centrospheres determines migration of BHK syncitia |
| Q46242125 | Effect of cAMP-elevating drugs on Ca2+ efflux and actin polymerization in peritoneal macrophages stimulated with N-formyl chemotactic peptide |
| Q41033231 | Effect of cytochalasin B on human neutrophil aggregation |
| Q40192947 | Effect of microtubule inhibitors on invasion and on related activities of tumor cells. |
| Q39664821 | Effect of vitamin C on tubulin tyrosinolation in polymorphonuclear leukocytes |
| Q69661511 | Electron microscopy microsampling of isolated nuclei sorted by flow cytometry |
| Q69136051 | Electrophysiological properties of three types of granulocytes in circulating blood of the newt |
| Q41740101 | Enhancement of chemotactic response and microtubule assembly in human leukocytes by ascorbic acid |
| Q36212404 | Evidence for an involvement of actin in the positioning and motility of centrosomes |
| Q36211715 | Fate of microtubule-organizing centers during myogenesis in vitro |
| Q41404084 | Filopodelike projections induced with dimethyl sulfoxide and their relevance to cellular polarity in Dictyostelium |
| Q71669670 | Freeze-fracture studies of chemotactic peptide-induced exocytosis in neutrophils: evidence for two patterns of secretory granule fusion |
| Q27004734 | Heading off with the herd: how cancer cells might maneuver supernumerary centrosomes for directional migration |
| Q26771113 | How Chemotherapy Increases the Risk of Systemic Candidiasis in Cancer Patients: Current Paradigm and Future Directions |
| Q34314365 | Hypothesis: microtubules, a key to Alzheimer disease |
| Q70230436 | Immotile cilia syndrome: Reduced chemotaxis and reduced number of intramembranous particles in granulocytes |
| Q49026794 | In vitro nucleation of microtubules from microtubule-organizing center prepared from cellular slime mold |
| Q35533108 | In vivo and in vitro HeNe laser effects on phagocyte functions |
| Q40158865 | Induced engulfment of Neisseria gonorrhoeae by tissue culture cells |
| Q54734309 | Induced locomotion of human and murine macrophages: a comparative analysis by means of the modified Boyden-chamber system and the agarose migration assay. |
| Q36210577 | Inhibition of neurite initiation and growth by taxol |
| Q43204140 | Inhibition of neutrophil migration by a selective inhibitor of matrix metalloproteinase: analysis by intravital microscopy |
| Q67028095 | Interaction of polymorphonuclear leukocytes with immune complexes trapped in joint collagenous tissues |
| Q36836987 | Interleukin-1 alpha (IL-1 alpha) and N-formyl-methionyl-leucyl-phenylalanine (FMLP) as potential inducers of supravital chemotaxis |
| Q71846409 | Introduction to the pathobiology of the cytoskeleton |
| Q35785445 | LGN Directs Interphase Endothelial Cell Behavior via the Microtubule Network |
| Q70793583 | Lack of effect of colchicine on human neutrophil chemotaxis under agarose |
| Q36209859 | Laser irradiation of centrosomes in newt eosinophils: evidence of centriole role in motility |
| Q66955885 | Lazy leukocyte syndrome |
| Q40288364 | Leukocyte abnormalities. |
| Q35863416 | Leukocytes in chemotactic-fragment-induced lung inflammation. Vascular emigration and alveolar surface migration |
| Q36128121 | Leukotriene B4: biological activities and the cytoskeleton |
| Q36200826 | Localization of submembranous cations to the leading end of human neutrophils during chemotaxis |
| Q46499640 | Localized cdc42 activation, detected using a novel assay, mediates microtubule organizing center positioning in endothelial cells in response to fluid shear stress. |
| Q30479783 | MTOC reorientation occurs during FcgammaR-mediated phagocytosis in macrophages |
| Q37041438 | Mechanism of Action of Colchicine in Acute Urate Crystal-Induced Arthritis |
| Q36531096 | Mechanism of centrosome positioning during the wound response in BSC-1 cells |
| Q42045269 | Membrane activity and topography of F-Met-Leu-Phe-Treated polymorphonuclear leukocytes. Acute and sustained responses to chemotactic peptide |
| Q37605304 | Membrane insertion at the leading edge of motile fibroblasts |
| Q35548612 | Mertk deficiency affects macrophage directional migration via disruption of cytoskeletal organization |
| Q34417618 | Microtubule asymmetry during neutrophil polarization and migration. |
| Q41430860 | Microtubule-organizing centers and cell migration: effect of inhibition of migration and microtubule disruption in endothelial cells |
| Q33536499 | Microtubules and signal transduction |
| Q81336808 | Microtubules as a gyroscope for cells on the go |
| Q41767958 | Mirror symmetry of newly divided rat periodontal ligament fibroblasts in situ and its relationship to cell migration |
| Q28264052 | Molecular and Cellular Mechanisms of Leukocyte Chemotaxis |
| Q41067501 | Monocyte Function in Psoriasis |
| Q70107269 | Morphological and biochemical responses of leukocytes in chemokinesis and chemotaxis |
| Q36214839 | Motility of cultured fish epidermal cells in the presence and absence of direct current electric fields |
| Q42084657 | Motility of human polymorphonuclear leukocytes. Roles of hydroxy fatty acids, other lipids, and cations |
| Q70255498 | Motility of human polymorphonuclear neutrophils: Microscopic analysis of substrate adhesion and distribution of F-actin |
| Q24338445 | Nesprin-3 regulates endothelial cell morphology, perinuclear cytoskeletal architecture, and flow-induced polarization |
| Q40098113 | Neutrophil Chemotaxis |
| Q36424870 | Overexpression or absence of calretinin in mouse primary mesothelial cells inversely affects proliferation and cell migration |
| Q59079016 | Persistent, directional motility of cells and cytoplasmic fragments in the absence of microtubules |
| Q34242219 | Pneumocystis carinii: inhibition of lung cell growth mediated by parasite attachment |
| Q36292185 | Polarization of the Golgi apparatus and the microtubule-organizing center in cultured fibroblasts at the edge of an experimental wound |
| Q33838882 | Polymorphonuclear leucocytes in Crohn's disease and ulcerative proctocolitis: association between enhanced adherence to nylon fibre and disease variables |
| Q71663054 | Polymorphonuclear leukocyte function in ulcerative colitis and Crohn's disease |
| Q92763167 | Positioning of the Centrosome and Golgi Complex |
| Q37688186 | Preferential orientation of centrioles toward the heart in endothelial cells of major blood vessels is reestablished after reversal of a segment |
| Q36216159 | Redistribution of microtubules and pericentriolar material during the development of polarity in mouse blastomeres |
| Q68488497 | Relationship of pseudopod extension to chemotactic hormone-induced actin polymerization in amoeboid cells |
| Q70070481 | Reorientation of the Golgi apparatus and the microtubule-organizing center inside macrophages subjected to a chemotactic gradient |
| Q40152378 | Review of neutrophil adherence, chemotaxis, phagocytosis and killing |
| Q42160365 | Role of ions and extracellular protein in leukocyte motility and membrane ruffling |
| Q72459160 | Role of microtubules in random cell migration: stabilization of cell polarity |
| Q33639610 | Selective stabilization of microtubules oriented toward the direction of cell migration |
| Q33487201 | Shwachman's syndrome. A review of 21 cases |
| Q54406755 | Slit2 Regulates Attractive Eosinophil and Repulsive Neutrophil Chemotaxis through Differential srGAP1 Expression during Lung Inflammation |
| Q43088288 | Spatial organization of microtubule-organizing centers and microtubules |
| Q41398483 | Spatial relationships of microtubule-organizing centers and the contact area of cytotoxic T lymphocytes and target cells |
| Q36205436 | Stimulation of tubulin tyrosinolation in rabbit leukocytes evoked by the chemoattractant formyl-methionyl-leucyl-phenylalanine |
| Q35206704 | Studies in normal and chronic granulomatous disease neutrophils indicate a correlation of tubulin tyrosinolation with the cellular redox state |
| Q33748190 | The C5a receptor (C5aR) C5L2 is a modulator of C5aR-mediated signal transduction. |
| Q60046863 | The Neutrophil Nucleus: An Important Influence on Neutrophil Migration and Function |
| Q34191850 | The architecture of microtubular network and Golgi orientation in osteoclasts—major differences between avian and mammalian species |
| Q34172806 | The centrosome and its role in the organization of microtubules |
| Q36221486 | The cortical microfilament system of lymphoblasts displays a periodic oscillatory activity in the absence of microtubules: implications for cell polarity |
| Q36209338 | The cytokineplast: purified, stable, and functional motile machinery from human blood polymorphonuclear leukocytes |
| Q70013827 | The distribution of centrosomes in endothelial cells of non-wounded and wounded aortic organ cultures |
| Q72417674 | The efficacy of colchicine prophylaxis in articular gout—A reappraisal after 20 years |
| Q39712348 | The leukocytic response in ligated rat submandibular glands |
| Q42829717 | The orientation of centrioles in migrating 3T3 cells |
| Q37596938 | The position of the microtubule-organizing center in directionally migrating fibroblasts depends on the nature of the substratum |
| Q54391057 | The position of the microtubule-organizing center relative to the nucleus is independent of the direction of cell migration indictyostelium discoideum |
| Q41563994 | The reorganization of microfilaments, centrosomes, and microtubules during in vitro small wound reendothelialization |
| Q36463414 | The role of Na(+)-Ca2+ exchange in human neutrophil function |
| Q35885396 | The role of cytoskeletal and cytocontractile elements in pathologic processes |
| Q30536181 | The role of microtubules in neutrophil polarity and migration in live zebrafish. |
| Q39648978 | The role of white blood cells in post-mortem wounds |
| Q36464300 | The usefulness of the high voltage electron microscope in biomedical ultrastructure analysis |
| Q36209422 | Tubulin tyrosinolation in human polymorphonuclear leukocytes: studies in normal subjects and in patients with the Chediak-Higashi syndrome |
| Q42819868 | Vimentin filaments in spreading, randomly locomoting, and f-met-leu-phe-treated neutrophils |
| Q35114999 | Zinc-dependent chemotactic defect in an infant with acrodermatitis. |
Search more.