Chemistry Reference
In-Depth Information
339 Wang, K. and Mayer, J.M. Oxidation of hydrocarbons by [(phen)
2
Mn(ยต-
O)
2
Mn(phen)2]
3+
via hydrogen atom abstraction.
J. Am. Chem. Soc.
1997,
119
,
1470-1471.
340 Yin, G., Danby, A.M., Kitko, D., Carter, J.D., Scheper, W.M., and Busch, D.H.
Oxidative reactivity difference among the metal oxo and metal hydroxo moieties:
pH dependent hydrogen abstraction by a manganese(IV) complex having two
hydroxide ligands.
J. Am. Chem. Soc.
2008,
130
, 16245-16253.
341 Yin, G., Danby, A.M., Kitko, D., Carter, J.D., Scheper, W.M., and Busch, D.H.
understanding the selectivity of a moderate oxidation catalyst: hydrogen abstrac-
tion by a fully characterized, activated catalyst, the robust dihydroxo
manganese(IV) complex of a bridged cyclam.
J. Am. Chem. Soc.
2007,
129
, 1512-
1513.
342 Gardner, K.A., Kuehnert, L.L., and Mayer, J.M. Hydrogen atom abstraction by
permanganate: oxidations of arylalkanes in organic solvents.
Inorg. Chem.
1997,
36
, 2069-2078.
343 Ekkati, A.R., Campanali, A.A., Abouelatta, A.I., Shamoun, M., Kalapugama, S.,
Kelley, M., and Kodanko, J.J. Preparation of N-acetyl, tert-butyl amide derivatives
of the 20 natural amino acids.
Amino Acids
2010,
38
, 747-751.
344 Buxton, G.V., Greenstock, C.L., Helman, W.P., and Ross, W.P. Critical review of
rate constants for reactions of hydrated electrons, hydrogen atoms and hydroxyl
radicals in aqueous solution.
J. Phys. Chem. Ref. Data
1988,
17
, 513-886.
345 Collins, M.J., Ray, K., and Que, J.L. Electrochemical generation of a nonheme
oxoiron(IV) complex.
Inorg. Chem.
2006,
45
, 8009-8011.
346 Lee, Y.M., Kotani, H., Suenobu, T., Nam, W., and Fukuzumi, S. Fundamental
electron-transfer properties of non-heme oxoiron(IV) complexes.
J. Am. Chem.
Soc.
2008,
130
, 434-435.
347 Sastri, C.V., Seo, M.S., Park, M.J., Kim, K.M., and Nam, W. Formation, stability,
and reactivity of a mononuclear nonheme oxoiron(IV) complex in aqueous solu-
tion.
Chem. Commun.
2005, 1405-1407.
348 Leeds, J.M., Brown, P.J., McGeehan, G.M., Brown, F.K., and Wiseman, J.S. Isotope
effects and alternative substrate reactivities for tryptophan 2,3- dioxygenase.
J.
Biol. Chem.
1993,
268
, 17781-17786.
349 Stewart, D.J., Napolitano, M.J., Bakhmutova-Albert, E.V., and Margerum, D.W.
Kinetics and mechanisms of chlorine dioxide oxidation of tryptophan.
Inorg.
Chem.
2008,
47
, 1639-1647.
350 Campanali, A.A., Kwiecien, T.D., Hryhorczuk, L., and Kodanko, J.J. Oxidation of
glutathione by [Fe
IV
(O)(N
4
Py)]
2+
: characterization of an [Fe
III
(SG)(N
4
Py)]
2+
inter-
mediate.
Inorg. Chem.
2010,
49
, 4759-4761.
351 Jabre, N.D., Hryhorczuk, L., and Kodanko, J.J. Stability of a ferryl-peptide conju-
gate is controlled by a remote substituent.
Inorg. Chem.
2009,
48
, 8078-8080.
352 Prakash, J. and Kodanko, J.J. Selective inactivation of serine proteases by nonheme
iron complexes.
Inorg. Chem.
2011,
50
, 3934-3945.
353 Fukuzumi, S. Role of metal ion in controlling bioinspired electron-transfer
systems. Metal ion coupled electron-transfer.
Prog. Inorg. Chem.
2009,
56
,
49-153.
Search WWH ::
Custom Search