Chemistry Reference
In-Depth Information
7 Hvidt, A. and Linderstrøm-Lang, K. Exchange of hydrogen atoms in insulin with
deuterium atoms in aqueous solutions.
Biochim. Biophys. Acta
1954,
14
,
574-575.
8 Hvidt, A. and Nielsen, S.O. Hydrogen exchange in proteins.
Adv. Protein Chem.
1966,
21
, 287-386.
9 Englander, S.W. and Kallenbach, N.R. Hydrogen exchange and structural dynam-
ics of proteins and nucleic acids.
Q. Rev. Biophys.
1983,
16
, 521-655.
10 Engen, J.R. Analysis of protein conformation and dynamics by hydrogen/
deuterium exchange MS.
Anal. Chem.
2009,
81
, 7870-7875.
11 Konermann, L., Pan, J., and Liu, Y.H. Hydrogen exchange mass spectrometry for
studying protein structure and dynamics.
Chem. Soc. Rev.
2011,
40
, 1224-1234.
12 Englander, S.W., Downer, N.W., and Teitelbaum, H. Hydrogen exchange.
Annu.
Rev. Biochem.
1972,
41
, 903-924.
13 Konermann, L., Stocks, B.B., Pan, Y., and Tong, X. Mass spectrometry combined
with oxidative labeling for exploring protein structure and folding.
Mass Spec-
trom. Rev.
2010,
29
, 651-667.
14 Pan, Y., Brown, L., and Konermann, L. Hydrogen/deuterium exchange mass spec-
trometry and optical spectroscopy as complementary tools for studying the struc-
ture and dynamics of a membrane protein.
Int. J. Mass Spectrom.
2011,
302
,
3-11.
15 Hebling, C.M., Morgan, C.R., Stafford, D.W., Jorgenson, J.W., Rand, K.D., and
Engen, J.R. Conformational analysis of membrane proteins in phospholipid
bilayer nanodiscs by hydrogen exchange mass spectrometry.
Anal. Chem.
2010,
82
, 5415-5419.
16 Speisky, H., Gómez, M., Burgos-Bravo, F., López-Alarcón, C., Jullian, C., Olea-
Azar, C., and Aliaga, M.E. Generation of superoxide radicals by copper-
glutathione complexes: redox-consequences associated with their interaction
with reduced glutathione.
Bioorg. Med. Chem
2009,
17
, 1803-1810.
17 Aliaga, M.E., López-Alarcón, C., Barriga, G., Olea-Azar, C., and Speisky, H.
Redox-active complexes formed during the interaction between glutathione and
mercury and/or copper ions.
J. Inorg. Biochem.
2010,
104
, 1084-1090.
18 Aliaga, M.E., Carrasco-Pozo, C., López-Alarcón, C., Olea-Azar, C., and Speisky,
H. Superoxide-dependent reduction of free Fe
3+
and release of Fe
2+
from ferritin
by the physiologically-occurring Cu(I)-glutathione complex.
Bioorg. Med. Chem.
2011,
19
, 534-541.
19 Leed, M.G.D., Wolkow, N., Pham, D.M., Daniel, C.L., Dunaief, J.L., and Franz, K.J.
Prochelators triggered by hydrogen peroxide provide hexadentate iron coordina-
tion to impede oxidative stress.
J. Inorg. Biochem.
2011,
105
, 1161-1172.
20 Joyner, J.C., Reichfield, J., and Cowan, J.A. Factors influencing the DNA nuclease
activity of iron, cobalt, nickel, and copper chelates.
J. Am. Chem. Soc.
2011,
133
,
15613-15626.
21 Chandrasekaran, P., Chanta, S., Stieber, E., Collins, T.J., Que, J.L., Neese, F., and
DeBeer, S. Prediction of high-valent iron K-edge absorption spectra by time-
dependent density functional theory.
Dalton Trans.
2011,
40
, 11070-11079.
22 Noszál, B. and Szakács, Z. Microscopic protonation equilibria of oxidized gluta-
thione.
J. Phys. Chem. B
2003,
107
, 5074-5080.
Search WWH ::
Custom Search