Bioinorganic Chemistry, Birchall Centre for Inorganic Chemistry and Materials Science, Lennard-Jones Laboratories, Keele University, Staffordshire, ST...
in Freshwater Snails Involves Intracellular. SiliconsAluminum Biointeractionâ. While we were not the first to coin the term hydroxyalu- minosilicate (HAS), we ...
Silicon ameliorates aluminum toxicity in the freshwater snail, Lymnaea stagnalis, through a ... In snails preloaded with Si(OH)4, behavioral toxicity in response to ...
Feb 15, 2008 - Faculty of Life Sciences, University of Manchester, Manchester M13 9PT, ... Similarly, recovery from Al-induced toxicity was faster when Si(OH)4 was ... Citation data is made available by participants in Crossref's Cited-by ...
Feb 15, 2008 - Kingdom, and MRC Human Nutrition Research, Elsie. Widdowson Laboratory, Cambridge CB1 9NL, United Kingdom. Received November 13 ...
Jun 18, 2008 - We thank you for the opportunity to respond to Dr. Exley's correspondence (1) on our paper (2) in terms of: (i) his concerns over the definition of ...
Jun 18, 2008 - Response to Comment on âAvoidance of Aluminum Toxicity in Freshwater Snails Involves Intracellular SiliconâAluminum Biointeractionâ.
Feb 22, 2016 - Lijuan Zhao , Yuxiong Huang , Adeyemi S. Adeleye , and Arturo A. Keller .... Tan , Saskia Trump , Susanne Walter-Rohde , John F. Wambaugh.
Feb 22, 2016 - It is proposed to be integrated in the Water Framework Directive (WFD).(3) EDA can potentially identify ...... Tufi , S.; Lamoree , M. H.; De Boer , J.; Leonards , P. E. G. Cross-platform metabolic profiling: application to the aquatic
Feb 22, 2016 - The toxicity of water samples can be tested with bioassays, but a ... fluctuation: A biomarker for organophosphorus pesticides poisoning and ...
Feb 22, 2016 - 3-fold increase). Increased hypoxanthine levels were related to increased oxygen radicals. ..... This article references 42 other publications. 1.
Correspondence Comment on “Avoidance of Aluminum Toxicity in Freshwater Snails Involves Intracellular SiliconsAluminum Biointeraction” While we were not the first to coin the term hydroxyaluminosilicate (HAS), we were the first to demonstrate that the formation of HAS limited the biological availability of aluminum (1). We have since strived to understand as much as we can about the inorganic chemistry of HAS and their role in the biogeochemical cycle of aluminum (2, 3) and through our efforts we have provided a full description of one of the very few examples of the chemistry of silicic acid (4). The latter, in undersaturated solutions (
