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  • Crystal structure of PhnZ in complex with substrate reveals a di-iron oxygenase mechanism for catabolism of organophosphonates.

Crystal structure of PhnZ in complex with substrate reveals a di-iron oxygenase mechanism for catabolism of organophosphonates.

Proceedings of the National Academy of Sciences of the United States of America (2014-04-08)
Laura M van Staalduinen, Fern R McSorley, Katharina Schiessl, Jacqueline Séguin, Peter B Wyatt, Friedrich Hammerschmidt, David L Zechel, Zongchao Jia
ABSTRACT

The enzymes PhnY and PhnZ comprise an oxidative catabolic pathway that enables marine bacteria to use 2-aminoethylphosphonic acid as a source of inorganic phosphate. PhnZ is notable for catalyzing the oxidative cleavage of a carbon-phosphorus bond using Fe(II) and dioxygen, despite belonging to a large family of hydrolytic enzymes, the HD-phosphohydrolase superfamily. We have determined high-resolution structures of PhnZ bound to its substrate, (R)-2-amino-1-hydroxyethylphosphonate (2.1 Å), and a buffer additive, l-tartrate (1.7 Å). The structures reveal PhnZ to have an active site containing two Fe ions coordinated by four histidines and two aspartates that is strikingly similar to the carbon-carbon bond cleaving enzyme, myo-inositol-oxygenase. The exception is Y24, which forms a transient ligand interaction at the dioxygen binding site of Fe2. Site-directed mutagenesis and kinetic analysis with substrate analogs revealed the roles of key active site residues. A fifth histidine that is conserved in the PhnZ subclade, H62, specifically interacts with the substrate 1-hydroxyl. The structures also revealed that Y24 and E27 mediate a unique induced-fit mechanism whereby E27 specifically recognizes the 2-amino group of the bound substrate and toggles the release of Y24 from the active site, thereby creating space for molecular oxygen to bind to Fe2. Structural comparisons of PhnZ reveal an evolutionary connection between Fe(II)-dependent hydrolysis of phosphate esters and oxidative carbon-phosphorus or carbon-carbon bond cleavage, thus uniting the diverse chemistries that are found in the HD superfamily.

MATERIALS
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Product Description

Iron, IRMM®, certified reference material, 0.5 mm wire
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Iron, chips, 99.98% trace metals basis
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Iron, powder, −325 mesh, 97%
Iron, rod, 100mm, diameter 5.0mm, as drawn, 99.99+%
Iron, foil, 150x150mm, thickness 2.0mm, as rolled, armco« soft ingot 99.8%
Iron, foil, not light tested, 50x50mm, thickness 0.003mm, 99.85%
Iron, foil, 100x100mm, thickness 0.125mm, as rolled, 99.99+%
Iron, rod, 50mm, diameter 100mm, as drawn, armcO« soft ingot 99.8%
Iron, rod, 1000mm, diameter 30mm, as drawn, 98+%
Iron, rod, 500mm, diameter 12.7mm, as drawn, 99.95%
Iron, rod, 500mm, diameter 19mm, as drawn, soft ingot 99.8%
Iron, rod, 100mm, diameter 50mm, as drawn, 98+%
Iron, foil, light tested, 25x25mm, thickness 0.075mm, hard, 99.5%
Iron, foil, 25x25mm, thickness 0.25mm, hard, 99.5%
Iron, foil, 300x300mm, thickness 0.20mm, hard, 99.5%
Iron, tube, 1000mm, outside diameter 3.2mm, inside diameter 2.2mm, wall thickness 0.5mm, as drawn, 99.8%
Iron, rod, 500mm, diameter 30mm, as drawn, armcO« soft ingot 99.8%
Iron, rod, 500mm, diameter 9.5mm, as drawn, 98+%
Iron, foil, 10mm disks, thickness 0.003mm, 99.85%
Iron, tube, 500mm, outside diameter 2.38mm, inside diameter 1.6mm, wall thickness 0.39mm, as drawn, 99.8+%
Iron, tube, 200mm, outside diameter 3.18mm, inside diameter 1.96mm, wall thickness 0.61mm, as drawn, 99.5%
Iron, rod, 100mm, diameter 40mm, as drawn, armcO« soft ingot 99.8%
Iron, rod, 1000mm, diameter 19.0mm, as drawn, 98+%
Iron, rod, 200mm, diameter 30mm, as drawn, 98+%
Iron, foil, 50x50mm, thickness 0.125mm, as rolled, 99.99+%
Iron, tube, 100mm, outside diameter 10.6mm, inside diameter 10.0mm, wall thickness 0.3mm, as drawn, 99.8+%
Iron, foil, 150x150mm, thickness 0.38mm, hard, 99.5%
Iron, rod, 500mm, diameter 50mm, as drawn, 98+%