| review article | Q7318358 |
| scholarly article | Q13442814 |
| P356 | DOI | 10.1016/S0074-7696(08)60671-3 |
| P698 | PubMed publication ID | 2289851 |
| P2093 | author name string | R D Allen | |
| A K Fok | |||
| P2860 | cites work | Identification of a novel force-generating protein, kinesin, involved in microtubule-based motility | Q24601419 |
| Dynein is the motor for retrograde axonal transport of organelles | Q33840224 | ||
| Digestive system membranes: freeze-fracture evidence for differentiation and flow in Paramecium. | Q36204780 | ||
| Nonlysosomal vesicles (acidosomes) are involved in phagosome acidification in Paramecium | Q36207626 | ||
| Weak bases and ionophores rapidly and reversibly raise the pH of endocytic vesicles in cultured mouse fibroblasts | Q36209351 | ||
| Retrieval of lysosomal membrane and acid phosphatase from phagolysosomes of Paramecium caudatum | Q36212114 | ||
| Legionella pneumophila inhibits acidification of its phagosome in human monocytes | Q36212159 | ||
| MAP 1C is a microtubule-activated ATPase which translocates microtubules in vitro and has dynein-like properties | Q36217545 | ||
| Sertoli cell processes have axoplasmic features: an ordered microtubule distribution and an abundant high molecular weight microtubule-associated protein (cytoplasmic dynein) | Q36219703 | ||
| The Legionnaires' disease bacterium (Legionella pneumophila) inhibits phagosome-lysosome fusion in human monocytes | Q36348251 | ||
| Food vacuole membrane growth with microtubule-associated membrane transport in Paramecium | Q36513586 | ||
| Phagocyte lysosomes: interactions with infectious agents, phagosomes, and experimental perturbations in function | Q37787513 | ||
| Acidification of the endocytic and exocytic pathways | Q39459758 | ||
| Receptor-mediated endocytosis: concepts emerging from the LDL receptor system | Q39461911 | ||
| Filamentous actin in Paramecium cells: mapping by phalloidin affinity labeling in vivo and in vitro | Q39544352 | ||
| Assembly of lysosomes: perspectives from comparative molecular cell biology. | Q39577228 | ||
| Endocytosis and exocytosis: current concepts of vesicle traffic in animal cells. | Q40096136 | ||
| Evidence for firm linkages between microtubules and membrane-bounded vesicles | Q41195245 | ||
| Observations on the ultrastructure of Uronema spp., marine scuticociliates | Q42443962 | ||
| Actin microfilaments in paramecium: localization and role in intracellular movements | Q42666111 | ||
| Processing of digestive vacuoles in Tetrahymena and the effects of dichloroisoproterenol | Q43314694 | ||
| Periodicity of endocytosis in Tetrahymena pyriformis | Q44772913 | ||
| Microtubule-associated protein 1C from brain is a two-headed cytosolic dynein | Q48088794 | ||
| Transfer of photosynthetically produced carbohydrate from endosymbiotic Chlorellae to Paramecium bursaria. | Q54437133 | ||
| THE FOOD-VACUOLE INPARAMECIUM | Q56145216 | ||
| Visualization of the structural polarity of microtubules | Q59056670 | ||
| Phagosome acidification blocked by intracellular Toxoplasma gondii | Q59098674 | ||
| AxenicParamecium caudatum. I. Mass Culture and Structure* | Q66994160 | ||
| The metabolic interactions between Paramecium bursaria Ehrbg. and Chlorella spec. in the Paramecium bursaria-symbiosis. I. The nitrogen and the carbon metabolism (author's transl) | Q67460255 | ||
| Lectin binding sites in Paramecium tetraurelia cells. II. Labeling analysis predominantly of non-secretory components | Q69663579 | ||
| Receptor-mediated endocytosis | Q69875511 | ||
| Intracellular binding of wheat germ agglutinin by Golgi complexes, phagosomes, and lysosomes of Paramecium multimicronucleatum | Q69936792 | ||
| Phagocytized intracellular microsporidian blocks phagosome acidification and phagosome-lysosome fusion | Q69950926 | ||
| Intracellular digestion and symbiosis in Paramecium bursaria | Q70003862 | ||
| Inhibition of lysosomal fusion with symbiont-containing vacuoles in Paramecium bursaria | Q70681179 | ||
| Lysosomal enzymes of Paramecium caudatum and Paramecium tetraurelia | Q72932310 | ||
| The feeding apparatus of a chitinivorous ciliate | Q81626183 | ||
| Infection of algae-free Paramecium bursaria with symbiotic Chlorella sp. Isolated from green paramecia: I. Effect of the incubation period | Q85571386 | ||
| Evidence of de novo synthesis of maltose excreted by the endosymbiotic Chlorella from Paramecium bursaria | Q86843739 | ||
| P304 | page(s) | 61-94 | |
| P577 | publication date | 1990-01-01 | |
| P1433 | published in | International Review of Cytology | Q2687019 |
| P1476 | title | The phagosome-lysosome membrane system and its regulation in Paramecium | |
| P478 | volume | 123 |
| Q72073778 | A post-lysosomal compartment in Dictyostelium discoideum |
| Q38970727 | An evolutionary balance: conservation vs innovation in ciliate membrane trafficking |
| Q35507419 | Biogenesis of the vacuole in Saccharomyces cerevisiae |
| Q33914556 | Membrane trafficking and processing in Paramecium |
| Q37783445 | Membrane trafficking in protozoa SNARE proteins, H+-ATPase, actin, and other key players in ciliates |
| Q53881538 | RNA interference by feeding in Paramecium. |
| Q68243038 | Reconstitution of the association of endocytic vacuoles and acidosomes from Dictyostelium |
| Q33960468 | Regulated secretion of conventional lysosomes |
| Q43309600 | Sustained Food Vacuole Formation by Axenic Paramecium tetraurelia and the Inhibition of Membrane Recycling by Alcian Blue |
| Q36224113 | Vesicle transport along microtubular ribbons and isolation of cytoplasmic dynein from Paramecium |
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