000 01835 a2200517 4500
005 20250515001547.0
264 0 _c20060504
008 200605s 0 0 eng d
022 _a0041-008X
024 7 _a10.1016/j.taap.2005.01.013
_2doi
040 _aNLM
_beng
_cNLM
100 1 _aChurg, Andrew
245 0 0 _aAir pollution particles activate NF-kappaB on contact with airway epithelial cell surfaces.
_h[electronic resource]
260 _bToxicology and applied pharmacology
_cOct 2005
300 _a37-45 p.
_bdigital
500 _aPublication Type: Comparative Study; Journal Article; Research Support, Non-U.S. Gov't
650 0 4 _aAir Pollutants
_xanalysis
650 0 4 _aAnimals
650 0 4 _aBinding, Competitive
_xdrug effects
650 0 4 _aBiological Transport
_xdrug effects
650 0 4 _aDeferoxamine
_xpharmacology
650 0 4 _aDust
650 0 4 _aEpithelial Cells
_xdrug effects
650 0 4 _aFerric Compounds
_xanalysis
650 0 4 _aFree Radical Scavengers
_xpharmacology
650 0 4 _aIn Vitro Techniques
650 0 4 _aNF-kappa B
_xmetabolism
650 0 4 _aParticle Size
650 0 4 _aProtein Kinase Inhibitors
_xpharmacology
650 0 4 _aPyrimidines
_xpharmacology
650 0 4 _aQuinazolines
650 0 4 _aRats
650 0 4 _aRats, Sprague-Dawley
650 0 4 _aSignal Transduction
_xdrug effects
650 0 4 _aThiourea
_xanalogs & derivatives
650 0 4 _aTime Factors
650 0 4 _aTitanium
_xanalysis
650 0 4 _aTrachea
_xdrug effects
650 0 4 _aTyrphostins
_xpharmacology
700 1 _aXie, Changshi
700 1 _aWang, Xiaoshan
700 1 _aVincent, Renaud
700 1 _aWang, Rong D
773 0 _tToxicology and applied pharmacology
_gvol. 208
_gno. 1
_gp. 37-45
856 4 0 _uhttps://doi.org/10.1016/j.taap.2005.01.013
_zAvailable from publisher's website
999 _c15798068
_d15798068