about
Induction of DNA double-strand breaks by asbestos, silica and titanium dioxide: do they provide an early predictive marker of carcinogenic potential?Asbestos-related cancer and the amphibole hypothesis: 3. The amphibole hypothesis: neither gone nor forgottenExpression and activity of urokinase and its receptor in endothelial and pulmonary epithelial cells exposed to asbestosExperimental asbestos carcinogenesisChemical characterization of uncoated asbestos fibers from the lungs of asbestos workers by electron microprobe analysisComparative cocarcinogenic effects of crocidolite asbestos, hematite, kaolin and carbon in implanted tracheal organ culturesApplication of the K2 asbestos screening test in Colorado schoolsInfrared spectra for mineral identificationPAT program report: background and current statusComparative proteomics and pulmonary toxicity of instilled single-walled carbon nanotubes, crocidolite asbestos, and ultrafine carbon black in miceAsbestosis mortality surveillance in the United States, 1970 - 2004Asbestos-Related Cancer and the Amphibole Hypothesis: 2. Stayner and Colleagues RespondAn inter-laboratory study to determine the effectiveness of procedures for discriminating amphibole asbestos fibers from amphibole cleavage fragments in fiber counting by phase-contrast microscopyPrevention of asbestos-induced cell death in rat lung fibroblasts and alveolar macrophages by scavengers of active oxygen species.Increased neutrophil adherence to endothelial cells exposed to asbestosGeneration of replicate asbestos aerosol samples for quality assuranceAntagonistic activity of poly (4-Vinylpyridine-N-oxide) to the inhibition of viral interferon induction by asbestos fibresRole of surface complexed iron in oxidant generation and lung inflammation induced by silicatesDusts causing pneumoconiosis generate OH and produce hemolysis by acting as fenton catalystsA case study in avoiding a deadly legacy in developing countriesAsbestos induces nuclear factor kappa B (NF-kappa B) DNA-binding activity and NF-kappa B-dependent gene expression in tracheal epithelial cellsTranscriptional activation of the proto-oncogene c-jun by asbestos and H2O2 is directly related to increased proliferation and transformation of tracheal epithelial cellsAsbestos causes translocation of p65 protein and increases NF-kB DNA binding activity in rat lung epithelial and pleural mesothelial cellsRole of extracellular signal-regulated protein kinases in apoptosis by asbestos and H2O2Cell signaling pathways elicited by asbestosIncreased focal adhesion kinase- and urokinase-type plasminogen activator receptor-associated cell signaling in endothelial cells exposed to asbestosComparative cytotoxic effects of crocidolite and its non-asbestiform polymorph on rat alveolar macrophagesModulation of mitochondrial gene expression in pulmonary epithelial cells exposed to oxidantsDNA double-strand breaks by asbestos, silica, and titanium dioxideAssociation of Metsovo lung and pleural mesothelioma with exposure to tremolite-containing whitewash.Are trace metals associated with asbestos fibers responsible for the biologic effects attributed to asbestos?Current intelligence bulletin 62: asbestos fibers and other elongate mineral particles: state of the science and roadmap for researchPhenotypic anchoring of subchronic carbon nanotube and asbestos exposure to small airway epithelial cells: linking toxicogenomic and neoplastic transformation responsesIntegration of genomic and proteomic biosignatures improves the discrimination of response to nanoparticles in a mouse modelComparative proteomics, genomics and pulmonary toxicity of instilled single walled carbon nanotubes, crocidolite asbestos and ultrafine carbon black in miceDose- and time-dependent assessment of human mesothelial cell neoplastic transformation potential after functionalized MWCNT exposureA comparative study of effects of singlewall carbon nanotubes and crocidolite asbestos in human BEAS-2B cellsExposures to carbon nanotubes and asbestos induce related but distinct profiles of toxicologic lung pathologyAsbestos in Colorado schoolsTest for screening: asbestos
P921
Q23909355-B334790E-1DB1-4BDC-8CA9-91C68C9FC11BQ23909372-B3A40F26-A710-41C8-99C5-B003CE67C264Q23909530-68D39CC3-2E10-4DD4-9B60-03D84A225F64Q23909904-37D0A786-934D-46C5-AB68-234D815D82C7Q23910118-C27AC793-B991-4C1E-B242-9B0937E02617Q23910274-1547C677-A338-4F40-8473-A3DFD2581E8DQ23911332-711A938E-06E3-4E7E-8231-553C6BAD2019Q23911704-56398534-C081-4DB4-9A8D-F9338A9E9CE6Q23914743-400983F1-6D95-4296-A35E-79C6898D26C4Q23915619-18AEFD9B-95C3-4B6F-B2C6-3F7DEA40FFD7Q23916252-36C8E313-F685-4793-950E-C85FFA0BC438Q23916905-92966BDF-C8ED-4F8C-84FD-023C28400F33Q23917345-BA233284-E3DB-4460-A875-0970706F5567Q23917657-D4EEFD54-A2B4-4F07-9311-201506329EE4Q23918165-AA5B7423-64D9-4686-A7C4-ABA0FA2252D0Q23919208-C611EEE7-94A9-4DE7-AA6E-9594FC244C4AQ23922472-1A28C9E2-F38A-4FBB-BAAE-E2C0657F70ECQ23922499-C508D740-A9B2-4F8F-86A6-9EAAF9B45F55Q23922662-BBB11F53-AFAC-4390-99D8-11BCD7035ED7Q23922915-4135E6B1-4701-496F-A636-05AC9F2FC552Q23922929-62031A88-150A-48E3-B277-624FD6C91FD5Q23922939-D131ECC9-0BBA-48DD-9360-DC928B2C1C03Q23923046-6E026FB8-55C7-4D69-867E-F28D0374EA93Q23923066-A81F2427-0980-4905-B43C-0567851CF778Q23923070-59CAA7E8-A777-455B-AF80-3DBE15200648Q23923072-5482EFA3-60D0-4AEE-AB8E-DBA0E7F716A2Q23923105-5AF0F9F2-66F8-4D2B-AEA5-068675557296Q23923126-E4731DEC-FF24-43E4-A278-A5D7E1D2D3C6Q23924230-5B2F2CA8-05C2-486F-A1C7-244515A28D44Q24170290-4AD71B95-F287-4CD2-9D33-99C1D9E03E06Q24265297-C56C6EA7-4B49-496E-81C8-12C3EBF2BDC2Q24704383-2D1BD18F-433B-4833-9237-5A1282EDB4DBQ24851915-33B27CA6-2C5D-4810-A616-08DC026AA332Q25018180-E36FE3E8-E283-4025-A0A9-25F23CBE8B2EQ25891616-9D4CA9AC-43FD-491D-BF51-41E245D7ECD7Q25930649-DC0828A2-F17B-4C3F-A7FC-AC61F992D5D8Q26062543-2027DD51-8AA6-4BAD-B610-2CD5E13B0936Q26206365-DF7C1307-1FD3-47C0-B402-367C0DB6EBD3Q26215577-2A7628AC-47A3-49C5-B893-4CC763730080Q26272875-224648CB-EE8C-40B0-9633-83B5A1B31989
P921
description
chemesch Verbindung
@lb
chemical compound
@en
chemical compound
@en-ca
chemical compound
@en-gb
chemická sloučenina
@cs
chemická zlúčenina
@sk
chemiese verbinding
@af
chemische Verbindung
@de
chemische Verbindung
@de-ch
chemische verbinding
@nl
name
diferric;trimagnesium;disodium;dihydroxy(keto)silane
@en
type
label
diferric;trimagnesium;disodium;dihydroxy(keto)silane
@en
altLabel
diferric;trimagnesium;disodium;dihydroxy(oxo)silane
@en
trimagnesium;disodium;bis(oxidanyl)-oxidanylidene-silane;iron(3+)
@en
trimagnesium;disodium;dihydroxy(oxo)silane;iron(3+)
@en
prefLabel
diferric;trimagnesium;disodium;dihydroxy(keto)silane
@en
P662
P683
P1578
P2067
853.623102
P231
12001-28-4
P232
P233
O[Si](=O)O.O[Si](=O)O.O[Si](=O ...... 2].[Mg+2].[Mg+2].[Fe+3].[Fe+3]
P234
1S/2Fe.3Mg.2Na.8H2O3Si/c;;;;;;;8*1-4(2)3/h;;;;;;;8*1-2H/q2*+3;3*+2;2*+1;;;;;;;;
P235
ULEFFCDROVNTRO-UHFFFAOYSA-N
P2566
100.124.173
P274
Fe₂H₁₆Mg₃Na₂O₂₄Si₈+₁₄
P3117
DTXSID5030743