Comparative cocarcinogenic effects of crocidolite asbestos, hematite, kaolin and carbon in implanted tracheal organ culturesmRNAs and miRNAs in whole blood associated with lung hyperplasia, fibrosis, and bronchiolo-alveolar adenoma and adenocarcinoma after multi-walled carbon nanotube inhalation exposure in miceQuinoline: conversion to a mutagen by human and rodent liverLung tumor promotion by chromium-containing welding particulate matter in a mouse modelThe effects of chlordane, DDT, and 3-methylcholanthrene upon the metabolism and toxicity of diethyl-4-nitrophenyl phosphorothionate (parathion).Use of rat primary lung cells for studying genotoxicity with the sister-chromatid exchange and micronucleus assays.Antitransforming activity of chlorophyllin against selected carcinogens and complex mixtures.mRNAs and miRNAs in whole blood associated with MWCNT-induced lung hyperplasia, fibrosis, and bronchiolo-alveolar adenoma and adenocarcinoma following inhalation exposure in miceMultiwalled carbon nanotube-induced lung tumorsTumor promoter action of chromium-containing stainless steel welding particulate matter in the lungs of A/J miceFurther Evaluation Of The C3H 10T 1/2 Cell Transformation Assay For Use In Screening Chemicals For Carcinogenic PotentialChlorophyllin: an antigenotoxic agentMechanisms of asbestos and nonasbestiform particles and fibers in bronchogenic carcinomaThe urine mutagenicity assay system: studies related to recovery, storage, and concentration proceduresEvaluation of the Transformation Assay Using C3H 10T1/2 Cells for Use in Screening Chemicals for Carcinogenic PotentialHazard review of 4-dimethylaminoazobenzene (DAB)Personal CommunicationHuman Teratoma Cell Culture System For The Presceening Of Environmental Chemicals That May Initiate Or Promote Tumor FormationEffects Of Carcinogens, Mutagens, And Teratogens On Nonhuman Species (Aquatic Animals)Dose response of multi-walled carbon nanotube-induced lung tumorsInhalation of gas metal arc-stainless steel welding fume promotes lung tumorigenesis in A/J mice3-Methylcholanthrene, an AhR agonist, caused cell-cycle arrest by histone deacetylation through a RhoA-dependent recruitment of HDAC1 and pRb2 to E2F1 complex.Methylcholanthrene-Induced Sarcomas Develop Independently from NOX2-Derived ROS.Metabolic requirements for induction of contact hypersensitivity to immunotoxic polyaromatic hydrocarbons.The atherogen 3-methylcholanthrene induces multiple DNA adducts in mouse aortic smooth muscle cells: role of cytochrome P4501B1.Antiproliferative and antiangiogenic effects of 3-methylcholanthrene, an aryl-hydrocarbon receptor agonist, in human umbilical vascular endothelial cells.Welding fumes: a new group 1 carcinogen.Dose response of multiwalled carbon nanotube (MWCNT)-induced lung tumorsLack of lung tumor promotion after inhalation of a copper-nickel welding fume in A/J mice
P921
Q23910274-85FB8936-8E74-4416-9748-86BC458C498CQ23910476-2BF5D826-A0C7-4F50-ABA1-D33E58DA3CA1Q23918552-7024946D-415D-4B74-8AFB-5EA488A330BFQ23919196-56B614C1-C4BB-4CA5-AB9C-7AD219DDB3E5Q23921267-04629C50-362F-4F9B-912F-7C661C372C4FQ23923416-AA295C36-DE3A-45B3-95E7-D331DD60D521Q23924168-7F3751D5-4C82-41F3-A010-AA1A98ECF2C7Q24585082-BBD7FF9B-733C-48BA-9232-A0B13E7197F7Q24718571-80B1C395-48C9-4686-96C1-0BAD89BC2432Q25930099-94D248BC-C383-4129-8C2C-A5968ACD9360Q26207009-2799C2C3-2969-46C3-BEA1-47FE63DCCF5CQ26323412-30C085F8-F85C-4870-B48A-6E0D0FEBC209Q26323533-45C7115D-CC72-41B2-A839-581FBD74556CQ26344425-B15D3B60-A8E3-4480-9B9C-A3955F618B90Q26369966-C7BC93EE-1D46-4556-8211-992210535B73Q26372682-8351078B-82A5-4D2D-B550-09E88BBB14DFQ26373067-639830A8-FF81-4FF4-A6D1-C449230CD4BBQ26373908-BEE26188-239F-4DB9-9655-674942317D39Q26373932-59BF540B-E6CB-47D5-BB0A-95FF6CC9F1ABQ29009889-2420CE39-09F7-4E23-8E02-E3109BFF18D0Q29009916-33A99FB1-3656-45F2-9717-8920EAA554EDQ35128009-0172ACE5-A7FC-41A1-B080-6F3D5F5B432DQ35663908-81AD8DB3-675C-4909-BDB1-472A5D256ADDQ41291156-1F9B6B53-9E9D-4110-87F8-20CC6DDF1A31Q43939759-8E7F2824-0DA4-4146-A44F-65091396F1CCQ46855110-2C47A12A-259D-46CD-848B-BFCA33188863Q66477026-FCCB4DE7-671D-482C-8DE5-FC25B4058D53Q66477038-C67691D3-15EC-417E-A7CB-4BCB67ACBFD5Q77791966-D8177C70-81F2-4FA2-A7EB-5C05BFDDAB90
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
3-Methylcholanthren
@de
Methylcholanthrene
@en
Methylcholanthrene
@en-ca
Methylcholanthrene
@en-gb
Metilcolantreno
@es
Metilholantren
@sh
Metilholantren
@sr
метилхолантрен
@ru
type
label
3-Methylcholanthren
@de
Methylcholanthrene
@en
Methylcholanthrene
@en-ca
Methylcholanthrene
@en-gb
Metilcolantreno
@es
Metilholantren
@sh
Metilholantren
@sr
метилхолантрен
@ru
altLabel
3-Methylcholanthrene
@en
prefLabel
3-Methylcholanthren
@de
Methylcholanthrene
@en
Methylcholanthrene
@en-ca
Methylcholanthrene
@en-gb
Metilcolantreno
@es
Metilholantren
@sh
Metilholantren
@sr
метилхолантрен
@ru