Kevin Compher scite author profile

The Svalbard archipelago in arctic Norway receives considerable semivolatile organic contaminant (SOC) inputs from the atmosphere. To measure the history of net SOC accumulation there, we analyzed the upper 40 m of an ice core from Austfonna, the largest ice cap in Eurasia, for several legacy organochlorine (OC) compounds and currentuse pesticides (CUPs) including organophosphorus (OP), triazine, dinitroaniline, and chloroacetamide compounds. Five OP compounds (chlorpyrifos, terbufos, diazinon, methyl parathion, and fenitrothion), two OCs (methoxychlor and dieldrin), and metolachlorsan herbicideshad historical profiles in the core. The highest OC concentration observed was aldrin (69.0 ng L -1 ) in the surface sample (1992)(1993)(1994)(1995)(1996)(1997)(1998). The most concentrated OP was dimethoate (87.0 ng L -1 ) between 1986 and 1992. The surface sample also had highest concentrations of pendimethalin (herbicide, 18.6 ng L -1 ) and flutriafol, the lone observed fungicide (9.6 ng L -1 ). The apparent atmospheric persistence of CUPs likely results from little or no oxidation by OH • during the dark polar winter and in spring. Long-range atmospheric pesticide transport to Svalbard from Eurasia is influenced by the positive state of the North Atlantic Oscillation Index since 1980 and also by occasional fast-moving summer air masses from northern Eurasian croplands.

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Structural Influence of Hydrophobic Core Residues on Metal Binding and Specificity in Carbonic Anhydrase II^,

Cox

Hunt

Compher

et al. 2000

Biochemistry

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Aromatic residues in the hydrophobic core of human carbonic anhydrase II (CAII) influence metal ion binding in the active site. Residues F93, F95, and W97 are contained in a beta-strand that also contains two zinc ligands, H94 and H96. The aromatic amino acids contribute to the high zinc affinity and slow zinc dissociation rate constant of CAII [Hunt, J. A., and Fierke, C. A. (1997) J. Biol. Chem. 272, 20364-20372]. Substitution of these aromatic amino acids with smaller side chains enhances Cu(2+) affinity while decreasing Co(2+) and Zn(2+) affinity [Hunt, J. A., Mahiuddin, A., & Fierke, C. A. (1999) Biochemistry 38, 9054-9062]. Here, X-ray crystal structures of zinc-bound F93I/F95M/W97V and F93S/F95L/W97M CAIIs reveal the introduction of new cavities in the hydrophobic core, compensatory movements of surrounding side chains, and the incorporation of buried water molecules; nevertheless, the enzyme maintains tetrahedral zinc coordination geometry. However, a conformational change of direct metal ligand H94 as well as indirect (i.e., "second-shell") ligand Q92 accompanies metal release in both F93I/F95M/W97V and F93S/F95L/W97M CAIIs, thereby eliminating preorientation of the histidine ligands with tetrahedral geometry in the apoenzyme. Only one cobalt-bound variant, F93I/F95M/W97V CAII, maintains tetrahedral metal coordination geometry; F93S/F95L/W97M CAII binds Co(2+) with trigonal bipyramidal coordination geometry due to the addition of azide anion to the metal coordination polyhedron. The copper-bound variants exhibit either square pyramidal or trigonal bipyramidal metal coordination geometry due to the addition of a second solvent molecule to the metal coordination polyhedron. The key finding of this work is that aromatic core residues serve as anchors that help to preorient direct and second-shell ligands to optimize zinc binding geometry and destabilize alternative geometries. These geometrical constraints are likely a main determinant of the enhanced zinc/copper specificity of CAII as compared to small molecule chelators.

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Variable Air Temperature Response of Gas-Phase Atmospheric Polychlorinated Biphenyls near a Former Manufacturing Facility

Hermanson

Scholten

Compher

2003

Environ. Sci. Technol.

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Many investigations of gas-phase atmospheric PCB show a strong relationship between concentration and air temperature, especially near PCB sources. Comparative gas-phase atmospheric PCB trends during an annual temperature regime at two sites near a former PCB manufacturing plant and nearby PCB landfills in Anniston, AL, indicate a departure from this trend. The Mars Hill sampling site, located closest to the plant and landfills, shows an annual average sigmaPCB concentration of 27 ng m(-3) (ranging from 8.7 to 82 ng m(-3)) three times the average at Carter, 1.5 km away (9 ng m(-3), ranging from 1.1 to 39). However, total PCB and congener concentrations vary more with air temperature at Carter where PCB are evaporating from surfaces during warmer weather. The slopes of the Clausius-Clapeyron plots of 18 of the most concentrated congeners representing dichloro- through heptachlorobiphenyl homologues are significantly higher at the Carter site. While some of the atmospheric PCB at Mars Hill is derived from ground surface evaporation, the source of much of it apparently is the material buried in the landfills, which has different thermal properties than surface materials and is not in equilibrium with air temperature.

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Kevin Compher

Current-Use and Legacy Pesticide History in the Austfonna Ice Cap, Svalbard, Norway

Structural Influence of Hydrophobic Core Residues on Metal Binding and Specificity in Carbonic Anhydrase II^,

Variable Air Temperature Response of Gas-Phase Atmospheric Polychlorinated Biphenyls near a Former Manufacturing Facility

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Kevin Compher

Current-Use and Legacy Pesticide History in the Austfonna Ice Cap, Svalbard, Norway

Structural Influence of Hydrophobic Core Residues on Metal Binding and Specificity in Carbonic Anhydrase II,

Variable Air Temperature Response of Gas-Phase Atmospheric Polychlorinated Biphenyls near a Former Manufacturing Facility

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Structural Influence of Hydrophobic Core Residues on Metal Binding and Specificity in Carbonic Anhydrase II^,