%D8%B3%D9%85%D9%8A%D8%A9_%D8%A7%D9%84%D8%AE%D9%84%D8%A7%D9%8A%D8%A7CitotoxicitatCytotoxiskZytotoxizit%C3%A4tCytotoxicityCitotoxicidad%D8%B3%D9%85%DB%8C%D8%AA_%D8%B3%D9%84%D9%88%D9%84%DB%8CSolumyrkkyCytotoxicit%C3%A9CitotoxicidadeSitotoksisitasCitotossicit%C3%A0%E7%B4%B0%E8%83%9E%E6%AF%92%E6%80%A7%EC%84%B8%ED%8F%AC%EB%8F%85%EC%84%B1SitotoksinCytotoxineCytotoksisitetCytotoksynyCitotoxicidade%D0%A6%D0%B8%D1%82%D0%BE%D1%82%D0%BE%D0%BA%D1%81%D0%B8%D1%87%D0%B5%D1%81%D0%BA%D0%B8%D0%B5_%D0%BF%D1%80%D0%B5%D0%BF%D0%B0%D1%80%D0%B0%D1%82%D1%8BCitotoksi%C4%8DnostCitotoksi%C4%8DnostSitotoksik%D8%B3%D9%85%DB%8C%D8%AA_%D8%AE%D9%84%DB%8C%DB%81Q246181%E7%B4%B0%E8%83%9E%E6%AF%92%E6%80%A7
about
P1889
Cytotoxicity mechanism of two naphthoquinones (menadione and plumbagin) in Saccharomyces cerevisiaeNatural killer cell mediated antibody-dependent cellular cytotoxicity in tumor immunotherapy with therapeutic antibodiesVariable fitness impact of HIV-1 escape mutations to cytotoxic T lymphocyte (CTL) responseCyclotide structure-activity relationships: qualitative and quantitative approaches linking cytotoxic and anthelmintic activity to the clustering of physicochemical forcesMSH3 mismatch repair protein regulates sensitivity to cytotoxic drugs and a histone deacetylase inhibitor in human colon carcinoma cellsLactobacillus delbrueckii ssp. bulgaricus B-30892 can inhibit cytotoxic effects and adhesion of pathogenic Clostridium difficile to Caco-2 cellsGardner's syndrome in a 40-year-old woman: successful treatment of locally aggressive desmoid tumors with cytotoxic chemotherapyCytotoxicity effect of degraded and undegraded kappa and iota carrageenan in human intestine and liver cell linesAntioxidant, antiglycation and cytotoxicity evaluation of selected medicinal plants of the Mascarene IslandsAntioxidant, anti-inflammatory and cytotoxicity of Phaleria macrocarpa (Boerl.) Scheff FruitThe immunomodulator PSK induces in vitro cytotoxic activity in tumour cell lines via arrest of cell cycle and induction of apoptosisA new extract of the plant Calendula officinalis produces a dual in vitro effect: cytotoxic anti-tumor activity and lymphocyte activationKlebsiella pneumoniae triggers a cytotoxic effect on airway epithelial cellsSignificant increase in cytotoxic T lymphocytes and natural killer cells by triphala: a clinical phase I studyCytotoxic CD4 T cells in antiviral immunityPCI-24781, a Novel Hydroxamic Acid HDAC Inhibitor, Exerts Cytotoxicity and Histone Alterations via Caspase-8 and FADD in Leukemia CellsTimosaponin AIII is preferentially cytotoxic to tumor cells through inhibition of mTOR and induction of ER stressCloning and characterization of a novel transforming growth factor-beta1-induced TIAF1 protein that inhibits tumor necrosis factor cytotoxicityCleavage of atrophin-1 at caspase site aspartic acid 109 modulates cytotoxicityIdentification of a SART-1-derived peptide capable of inducing HLA-A24-restricted and tumor-specific cytotoxic T lymphocytesCaspase-12 mediates endoplasmic-reticulum-specific apoptosis and cytotoxicity by amyloid-betaPrinciples of cytotoxic chemotherapyIL-18 activates STAT3 in the natural killer cell line 92, augments cytotoxic activity, and mediates IFN-gamma production by the stress kinase p38 and by the extracellular regulated kinases p44erk-1 and p42erk-21Evaluation of the pulmonary toxicity of a fume generated from a Nickel-, copper-based electrode to be used as a substitute in stainless steel weldingClastogenic and aneuploidogenic effects of cigarette smoke condensate, mitomycin C and vincristine sulfateEffects of simulated pulmonary surfactant on the cytotoxicity and DNA-damaging activity of respirable quartz and kaolinInduction of micronucleated and multinucleated cells by man-made fibers in vitro in mammalian cellsEffect of fiber length on glass microfiber cytotoxicityInduction of DNA double-strand breaks by asbestos, silica and titanium dioxide: do they provide an early predictive marker of carcinogenic potential?The role of nanotoxicology in realizing the 'helping without harm' paradigm of nanomedicine: lessons from studies of pulmonary effects of single-walled carbon nanotubesRelationship between pulmonary and systemic markers of exposure to multiple types of welding particulate matterIdentification of systemic markers from a pulmonary carbon nanotube exposureProduction and characterization of IgM monoclonal antibodies against hyphal antigens of Stachybotrys speciesCharacterization of physicochemical properties of beryllium aerosols associated with prevalence of chronic beryllium diseaseInteractive effect of cigarette smoke extract and World Trade Center dust particles on airway cell cytotoxicityContrast of the biological activity of negatively and positively charged microwave synthesized CdSe/ZnS quantum dotsLong-term effects of carbon containing engineered nanomaterials and asbestos in the lung: one year postexposure comparisonsExposure to carbon nanotube material: assessment of nanotube cytotoxicity using human keratinocyte cellsAlterations in rat axonal cytoskeletal proteins induced by in vitro and in vivo 2,5-hexanedione exposure.Oxidative stress and dermal toxicity of iron oxide nanoparticles in vitro
P921
Q21092161-D2A0EBB3-F945-47AC-B107-1947C210AE00Q21131216-E195F6BF-F353-4292-BC00-E31C367C74B4Q21131580-480B1F94-89C2-4F51-BF58-7468FEFC6691Q21132291-11606D8B-FDA3-4834-A54A-1AA5846575DDQ21133026-0C0F9E70-0CBF-4ED5-8533-90EF779B4921Q21198789-8B4AF474-B744-408E-9AC7-6DB1DF99A60EQ21245591-E15BDBF0-1B8F-444B-BD2D-4DAABAB5CE15Q21254680-376D7B30-CFDD-4338-9AD5-CD496A9AF9D7Q21254685-46D0C8FF-BDB6-4496-B6EA-DE7E04461570Q21254691-5EF803C6-1FF4-4C1B-89A1-21518B1B4F40Q21260393-82F121D8-C147-4815-A13C-F6291D615561Q21260433-50C1BA4B-CF3B-4613-A306-32EED102E97EQ21263051-F50491B7-1BA5-4311-82BD-2E081ABA80DFQ21296692-8F294FD6-503B-42E4-A8A5-4FCB9F92D81DQ21296742-2F0E69F7-0949-4B12-ACD0-126DAEB5EE07Q21328686-196705DF-B7C7-4575-A989-AB7634E9E24EQ21562347-134FD1CC-1E4D-469F-AB55-B9A21BCBBAC2Q22008709-60096534-8965-498E-81B6-95A116FD0C27Q22009069-08BE3EEA-D25E-4C98-A1AD-91D0DCAF5601Q22009435-FE0A64A4-9B34-4CE2-AB32-ABA260A3DCFAQ22011091-E6E43B6A-6B15-4FCA-9B22-8B244D2DDECDQ22252356-A2DB599D-FF1F-42DB-9D81-F46A840C1B09Q22254639-F15A0385-3FCA-4C0B-80A6-4491BB809FCAQ23909173-1A107DFE-FB78-41B2-B812-03854FE07CE4Q23909193-0CA8EB2A-F81A-444D-95C8-62916DE90D85Q23909302-9CFD54B6-A75B-45D4-985E-0AA1B8F44AA0Q23909347-0E062C65-79B8-4C31-997A-D3BAC187DB26Q23909350-70AA06FD-9331-414E-BEC7-27B720EEE595Q23909355-6892311E-55B2-4504-BD35-4CA285EA1A02Q23909386-E030FDFA-57C3-470F-AFAB-1185B179894AQ23909536-D4E0F723-EB70-4780-8F79-C7B4882D3384Q23909539-4607B18E-2A3D-4667-B533-49451A68377DQ23909607-DCDE7D10-1784-4956-BFB2-2E80735F8E4FQ23909683-14D31257-1DCF-49F5-9A3F-68B7C1F6C6F6Q23909746-44AE4687-EA58-4F48-A246-521C44CA19EEQ23909801-A054FF3A-D0D8-494C-8B89-6FEBC9BEFF47Q23909987-6084DD8C-2220-4BAA-A66E-B26CCD5D1F7CQ23910003-53677BDF-ABE1-4F68-9360-3CACFC60C1BAQ23910046-C32350E7-D558-44C0-AAEF-C2D12050C3A9Q23910151-B16B67F6-B983-4D6A-B2C7-F509D4749026
P921
description
Egenskap ved substanser som kan drepe celler
@nb
The quality of being toxic to cells
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name
Citotoksičnost
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Citotoksičnost
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Citotossicità
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Citotoxicidade
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Cytotoksisitet
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Cytotoksyny
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Sitotoksik
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Sitotoksin
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Sitotoksisitas
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Solumyrkky
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type
label
Citotoksičnost
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Citotoksičnost
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Citotossicità
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Citotoxicidade
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Cytotoksisitet
@nb
Cytotoksyny
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Sitotoksik
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Sitotoksin
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Sitotoksisitas
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Solumyrkky
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altLabel
Solumyrkyt
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prefLabel
Citotoksičnost
@sh
Citotoksičnost
@sr
Citotossicità
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Citotoxicidade
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Cytotoksisitet
@nb
Cytotoksyny
@pl
Sitotoksik
@tr
Sitotoksin
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Sitotoksisitas
@id
Solumyrkky
@fi
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P3827
cytotoxins