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Stephen J Lippard

Showing results (11-20 of 375) with videos related to

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Inorganic Chemistry|December 23, 2003
Synthesis, characterization, and dioxygen reactivity of tetracarboxylate-bridged Diiron(II) complexes with coordinated substratesSungho Yoon, Stephen J Lippard
Biochemistry|August 21, 2012
Binding interaction of HMGB4 with cisplatin-modified DNASemi Park, Stephen J Lippard
The Journal of Biological Chemistry|March 11, 2004
Cisplatin-induced post-translational modification of histones H3 and H4Dong Wang, Stephen J Lippard
Journal of the American Chemical Society|December 23, 2004
Water-dependent reactions of diiron(II) carboxylate complexesSungho Yoon, Stephen J Lippard
Inorganic Chemistry|February 19, 2002
Synthetic analogue of the [Fe(2)(mu-OH)(2)(mu-O(2)CR)](3+) core of soluble methane monooxygenase hydroxylase via synthesis and dioxygen reactivity of carboxylate-bridged diiron(II) complexesDongwhan Lee, Stephen J Lippard
Journal of the American Chemical Society|June 9, 2005
Water affects the stereochemistry and dioxygen reactivity of carboxylate-rich diiron(II) models for the diiron centers in dioxygen-dependent non-heme enzymesSungho Yoon, Stephen J Lippard
Chemical Reviews|April 26, 2007
Direct cellular responses to platinum-induced DNA damageYongwon Jung, Stephen J Lippard
Current Opinion in Chemical Biology|January 26, 2010
Imaging mobile zinc in biologyElisa Tomat, Stephen J Lippard
The Journal of Biological Chemistry|November 16, 2001
Why OrfY? Characterization of MMOD, a long overlooked component of the soluble methane monooxygenase from Methylococcus capsulatus (Bath)Maarten Merkx, Stephen J Lippard
Inorganic Chemistry|July 4, 2006
Mechanistic studies of the oxidative N-dealkylation of a substrate tethered to carboxylate-bridged diiron(II) complexes, [Fe2(mu-O2CAr(Tol))2(O2CAr(Tol))2(N,N-Bn2en)2]Sungho Yoon, Stephen J Lippard
Pageof 38

Showing results (11-20 of 375) with videos related to

Sort By:
Pageof 38
Inorganic Chemistry|December 23, 2003
Synthesis, characterization, and dioxygen reactivity of tetracarboxylate-bridged Diiron(II) complexes with coordinated substratesSungho Yoon, Stephen J Lippard
Biochemistry|August 21, 2012
Binding interaction of HMGB4 with cisplatin-modified DNASemi Park, Stephen J Lippard
The Journal of Biological Chemistry|March 11, 2004
Cisplatin-induced post-translational modification of histones H3 and H4Dong Wang, Stephen J Lippard
Journal of the American Chemical Society|December 23, 2004
Water-dependent reactions of diiron(II) carboxylate complexesSungho Yoon, Stephen J Lippard
Inorganic Chemistry|February 19, 2002
Synthetic analogue of the [Fe(2)(mu-OH)(2)(mu-O(2)CR)](3+) core of soluble methane monooxygenase hydroxylase via synthesis and dioxygen reactivity of carboxylate-bridged diiron(II) complexesDongwhan Lee, Stephen J Lippard
Journal of the American Chemical Society|June 9, 2005
Water affects the stereochemistry and dioxygen reactivity of carboxylate-rich diiron(II) models for the diiron centers in dioxygen-dependent non-heme enzymesSungho Yoon, Stephen J Lippard
Chemical Reviews|April 26, 2007
Direct cellular responses to platinum-induced DNA damageYongwon Jung, Stephen J Lippard
Current Opinion in Chemical Biology|January 26, 2010
Imaging mobile zinc in biologyElisa Tomat, Stephen J Lippard
The Journal of Biological Chemistry|November 16, 2001
Why OrfY? Characterization of MMOD, a long overlooked component of the soluble methane monooxygenase from Methylococcus capsulatus (Bath)Maarten Merkx, Stephen J Lippard
Inorganic Chemistry|July 4, 2006
Mechanistic studies of the oxidative N-dealkylation of a substrate tethered to carboxylate-bridged diiron(II) complexes, [Fe2(mu-O2CAr(Tol))2(O2CAr(Tol))2(N,N-Bn2en)2]Sungho Yoon, Stephen J Lippard
Pageof 38