Supramolecular interactions are often implicated in various adhes

Supramolecular interactions are often implicated in various adhesion mechanisms. Recently, supramolecular building blocks, such as synthetic DNA base-pair mimics, have drawn attention in the context of molecular recognition, self-assembly, and supramolecular polymers. These reversible, hydrogen-bonding interactions have been studied extensively for their adhesive capabilities at the nano- and microscale, however, much less is known about their utility for practical adhesion in macroscopic systems. Herein, we report the preparation and evaluation

of supramolecular coupling agents based on high-affinity, high-fidelity quadruple hydrogen-bonding units (e.g., DAN.DeUG, K-assoc = 10(8) M-1 in chloroform). Macroscopic selleck inhibitor adhesion between polystyrene films and glass surfaces modified with 2,7-diamidonaphthyridine (DAN) and ureido-7-deazaguanine (DeUG) units was evaluated KPT-8602 price by mechanical testing. Structure property relationships indicate that the designed supramolecular interaction at the nanoscale

plays a key role in the observed macroscopic adhesive response. Experiments probing reversible adhesion or self-healing properties of bulk samples indicate that significant recovery of initial strength can be realized after failure but that the designed noncovalent interaction does not lead to healing during the process of adhesion loss.”
“Mercury concentrations ([Hg]) in Arctic food fish often exceed guidelines for human subsistence consumption. Previous research on two food fish species, Arctic char (Salvelinus alpinus) and lake trout (Salvelinus namaycush), indicates that anadromous fish have lower [Hg] than nonanadromous fish, but there have been no intraregional comparisons. Also, no comparisons of [Hg] among anadromous (sea-run), resident

(marine access but do not migrate), and landlocked (no marine access) life history types of Arctic char and lake trout have been published. Using intraregional data from 10 lakes in the West Kitikmeot area of Nunavut, Canada, we found that [Hg] varied significantly among species and life history types. Differences among species life history types were best explained by age-at-size and C:N ratios (indicator of lipid); LBH589 in vitro [Hg] was significantly and negatively related to both. At a standardized fork length of 500 mm, lake trout had significantly higher [Hg] (mean 0.17 mu g/g wet wt) than Arctic char (0.09 mu g). Anadromous and resident Arctic char had significantly lower [Hg] (each 0.04 mu g/g) than landlocked Arctic char (0.19 mu g/g). Anadromous lake trout had significantly lower [Hg] (0.12 mu g/g) than resident lake trout (0.18 mu g/g), but no significant difference in [Hg] was seen between landlocked lake trout (0.21 mu g/g) and other life history types. Our results are relevant to human health assessments and consumption guidance and will inform models of Hg accumulation in Arctic fish. Environ. Toxicol. Chem. 2011;30:1459-1467.

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