Chemistry Reference
In-Depth Information
Tan, E-L., M.W. Williams, R.L. Schenley, S.W. Perdue, T.L. Hayden, J.E. Turner, and
A.W. Hsie. 1984. The toxicity of sixteen metallic compounds in Chinese hamster ovary
cells.
Toxicol. Appl. Pharmacol.
74:330-336.
Tatara, C.P., M.C. Newman, J.T. McCloskey, and P.L. Williams. 1997. Predicting relative
metal toxicity with ion characteristics:
Caenorhabditis elegans
LC50.
Aquatic Toxicol.
39:279-290.
Tatara, C.P., M.C. Newman, J.T. McCloskey, and P.L. Williams. 1998. Use of ion character-
istics to predict relative toxicity of mono-, di-, and trivalent metal ions:
Caenorhabditis
elegans
LC50.
Aquatic Toxicol
. 42: 255-269.
True, R.H. 1930. The toxicity of molecules and ions,
Proc. Am. Phil. Soc
69:231-245.
Turner, J.E., E.H. Lee, K.B. Jacobson, N.T. Christie, M.W. Williams, and J.D. Hoeschele.
1983. Investigation of correlations between chemical parameters of metal ions and acute
toxicity in mice and
Drosophila
.
Sci. Total Environ.
28:343-354.
Turner, J.E., M.W. Williams, K.B. Jacobson, and B.E. Hingerty. 1985. Correlations of acute
toxicity of metal ions and the covalent/ionic character of their bonds. In
QSAR
in Toxicology and Xenobiochemistry
, edited by M. Tichý, 171-178. Amsterdam:
Elsevier.
Van Kolck, M., M.A.J. Huijbregts, K. Veltman, and A.J. Hendriks. 2008. Estimating
bioconcentration factors, lethal concentrations and critical body residues of met-
als in the mollusks
Perna viridis
and
Mytilus edulis
using ion characteristics.
Environ. Toxicol. Chem
. 27:272-276. Supplementary Information available at
http://
S1.pdf?v
= 1&s = fda547dc5689332031992621f5e3833819a8e96f.
Venugopal, B., and T.D. Luckey. 1978.
Metal Toxicity in Mammals, Vol. 2, Chemical Toxicity
of Metals and Metalloids.
New York: Plenum.
Walker, J.D., M. Enache, and J.C. Dearden. 2003. Quantitative cationic activity relationships
for predicting toxicity of metals.
Environ. Toxicol. Chem
. 22:1916-1935.
Walker, J.D., M. Enache, and J.C. Dearden. 2007. Quantitative cationic activity relationships
for predicting toxicity of metal ions from physicochemical properties and natural
occurrence levels.
QSAR Combin. Sci.
26:522-527.
Williams, M.W., J.D. Hoeschele, J.E. Turner, K.B. Jacobson, N.T. Christie, C.L. Paton,
L.H. Smith, H.R. Witschi, and E.H. Lee. 1982. Chemical softness and acute metal
toxicity in mice and
Drosophila. Toxicol. Appl. Pharmacol.
63:461-469.
Williams, M.W., and J.E. Turner. 1981. Comments on softness parameters and metal ion
toxicity.
J. Inorg. Nucl. Chem.
43:1689-1691.
Williams, M.W., J.E. Turner, and A.W. Hsie. 1987. Calmodulin inhibition: A possible predic-
tor of metal-ion toxicity. In
QSAR in Environmental Toxicology
II, edited by K.L.E.
Kaiser and D. Reidel, 401-405. Netherlands: Dordrecht.
Woodruff, L.L., and H.H. Bunzel. 1909. The relative toxicity of various salts and acids toward
Paramecium. Am. J. Physiol.
25:190-194.
Workentine, M.L., J.J. Harrison, P.U. Stenroos, H, Ceri, and R.J. Turner. 2008.
Pseudomonas
fluorescens'
' view of the periodic table.
Environ. Microbiol.
10(1):238-250.
Zamil, S.S., S. Ahmad, M.H. Choi, J.Y. Park, and S.C. Yoon. 2009. Correlating metal ionic
characteristics with biosorption capacity of
Staphylococcus saprophyticus
BMSZ711
using QICAR model.
Bioresource Technol
. 100:1895-1902.
Zhou, D.M., L.Z. Li, W.J.G.M. Peijnenburg, D.R. Ownby, A.J. Hendriks, P. Wang, and D.D.
Li. 2011. A QICAR approach for quantifying binding constants for metal-ligands com-
plexes.
Ecotox. Environ. Safety
74:1036-1042.
