Towards a model of non-equilibrium binding of a metal ion in a biological system

We have used a systems biology approach to address the hitherto insoluble problem of the quantitative analysis of non-equilibrium binding of aqueous metal ions by competitive ligands in heterogeneous media. To-date, the relative proportions of different metal complexes in aqueous media have only been modelled at chemical equilibrium and there are no quantitative analyses of the approach to equilibrium1. While these models have improved our understanding of how metals are used in biological systems they cannot account for the influence of kinetic factors in metal binding, transport and fate2. Here we have modelled the binding of aluminium in blood serum by the iron transport protein transferrin (Tf) as it is widely accepted that the biological fate of this non-essential metal is not adequately described by experiments, in vitro and in silico, which have consistently demonstrated that at equilibrium 90% of serum Al(III) is bound by Tf3-5. We have coined this paradox 'the blood-aluminium problem'6 and herein applied a systems biology approach which utilised well-found assumptions to pare away the complexities of the problem such that it was defined by a comparatively simple set of computational rules and, importantly, its solution assumed significant predictive capabilities. Here we show that our novel computational model successfully described the binding of Al(III) by Tf both at equilibrium and as equilibrium for AlTf was approached. The model provided an explanation of why the distribution of Al(III) in the body cannot be adequately described by its binding and transport by Tf and it highlighted the significance of kinetic in addition to thermodynamic constraints in defining the fate of metal ions in biological systems. This is the first model of non-equilibrium metal binding in a biological system and it should prove to be a valuable predictive tool in furthering our understanding of the bioinorganic chemistry of metals

Teaching spelling in the middle years: Reviewing programs for diverse student groups

In what follows, I draw attention to understandings about the teaching of Standard Australian English spelling developed by being immersed in the URL project site for four years though sharing professional dialogue with teachers and educators and entering into informal conversations with some of the students and their parents. My understandings focus on the potential and problematics of oft-used generic spelling programs and approaches for student cohorts marked by social, cultural and linguistic diversity. This article concludes by considering two possible extensions to the word study approach that may have utility for working with middle years students from diverse backgrounds: creating a discursive ‘Third Space’ that overtly recognises students’ language experiences and the technique of colour blocking to create a visual stress

Prevention of muddy taints in farmed barramundi

Research work within this project has generated a wealth of new information on muddy taints occurring in freshwater barramundi farmed in open-culture ponds in North Queensland. Extensive monitoring of ponds for taint presence illustrated that taint events were highly farm specific and dependent on environmental conditions. It was clear that water quality is a critical factor and where intake water has a high nutrient load, algal blooms flourished usually with a concomitant taint event. There was a seasonal pattern of incidence showing a trend of low incidence during winter months, more frequent incidence as temperature increased with greater taint intensity. Heavy rainfall events did not appear to affect occurrence of taint