2000
Rabies virus entry at the neuromuscular junction in nerve–muscle cocultures
Lewis P, Fu Y, Lentz T. Rabies virus entry at the neuromuscular junction in nerve–muscle cocultures. Muscle & Nerve 2000, 23: 720-730. PMID: 10797395, DOI: 10.1002/(sici)1097-4598(200005)23:5<720::aid-mus9>3.0.co;2-5.Peer-Reviewed Original ResearchConceptsNerve cell bodiesRabies virus entryNerve-muscle coculturesNerve terminalsNerve fibersNeuromuscular junctionRabies virusCell bodiesVirus entryMotor nerve terminalsNerve-muscle contactsNicotinic acetylcholine receptorsVirus adsorption periodAcetylcholine receptorsLucifer YellowSynapsin ISynaptic vesiclesRetrograde transportVirusProgressive increaseEarly eventsCocultureSurface of cellsMyotube surfaceNeurons
1998
Rabies virus entry into cultured rat hippo campalneurons
Lewis P, Lentz T. Rabies virus entry into cultured rat hippo campalneurons. Brain Cell Biology 1998, 27: 559-573. PMID: 10405023, DOI: 10.1023/a:1006912610044.Peer-Reviewed Original ResearchConceptsRabies virus entryCultured hippocampal neuronsViral antigensHippocampal neuronsRabies virusVirus entryRabies virus infectionSynaptic vesicle markersAxon terminalsNerve terminalsVirus infectionLysosomotropic agent chloroquineSomatodendritic domainCell bodiesVirus-containing endosomesLucifer YellowNeuronsSynapsin IInfectionAntigenTransferrin receptorVirusWheat germ agglutininAgent chloroquineVesicle markers
1972
DISTRIBUTION OF LEUCINE-3H DURING AXOPLASMIC TRANSPORT WITHIN REGENERATING NEURONS AS DETERMINED BY ELECTRON-MICROSCOPE RADIOAUTOGRAPHY
Lentz T. DISTRIBUTION OF LEUCINE-3H DURING AXOPLASMIC TRANSPORT WITHIN REGENERATING NEURONS AS DETERMINED BY ELECTRON-MICROSCOPE RADIOAUTOGRAPHY. Journal Of Cell Biology 1972, 52: 719-732. PMID: 4109691, PMCID: PMC2108661, DOI: 10.1083/jcb.52.3.719.Peer-Reviewed Original ResearchConceptsNerve terminalsElectron microscope radioautographyDistribution of leucineLeucine-3HNerve endingsSensory gangliaRegenerating neuronsSpinal cordTrophic factorsAxoplasmic transportBrachial nervesPeripheral patternAxonal transportMyelinated nervesAxonsRelease of substancesRough-surfaced endoplasmic reticulumNerveInfusionGrowth conesNeuronsSilver grainsRadioautographyRadioautographic grains
1969
Vesicle and granule content of sympathetic ganglion cells during limb regeneration of the newt Triturus
Lentz T. Vesicle and granule content of sympathetic ganglion cells during limb regeneration of the newt Triturus. Cell And Tissue Research 1969, 102: 447-458. PMID: 4908503, DOI: 10.1007/bf00335487.Peer-Reviewed Original ResearchConceptsGanglion cellsNerve fibersNormal ganglion cellsSympathetic ganglion cellsPeripheral nerve fibersGranule contentsDense-core vesiclesNormal neuronsPeripheral nervesRegenerating fibersClear vesiclesNeuronsDense granulesMembrane-bounded granulesUpper forelimbNewt TriturusCellsLimb regenerationNerveTransectionAcid phosphatase activityDense contentGangliaVesicles increasesGranules
1968
Neurons: Secretory Activity during Limb Regeneration and Induction in the Newt
Van Arsdall C, Lentz T. Neurons: Secretory Activity during Limb Regeneration and Induction in the Newt. Science 1968, 162: 1296-1297. PMID: 4177340, DOI: 10.1126/science.162.3859.1296.Peer-Reviewed Original Research
1965
Fine structural changes in the nervous system of the regenerating hydra
Lentz T. Fine structural changes in the nervous system of the regenerating hydra. Journal Of Experimental Zoology 1965, 159: 181-193. PMID: 4379200, DOI: 10.1002/jez.1401590204.Peer-Reviewed Original ResearchConceptsRegulation of growthHours of regenerationDifferentiation of neuronsNormal hydraPlasma membraneGolgi apparatusVesicle membraneHydraDense granulesDense homogeneous materialNeurosecretory cellsDifferentiationCellsFine structural changesMembraneNervous systemRegenerationInterstitial cellsMultiple nucleoliPolyribosomesIntermediate stageNucleoliRegulationNeuronsLarge number