C. Bocking scite author profile

When denitrifying bacteria such as Paracoccus denitrificans respire anaerobically they convert nitrate to dinitrogen gas via a pathway which includes the potent greenhouse gas, nitrous oxide (N2O). The copper-dependent enzyme Nitrous Oxide reductase (Nos) catalyzes the reduction of N2O to dinitrogen. In low-copper conditions, recent experiments in chemostats have demonstrated that Nos efficiency decreases resulting in significant N2O emissions. For the first time, a chemostat-based mathematical model is developed that describes the anaerobic denitrification pathway based on Michaelis–Menten kinetics and published kinetic parameters. The model predicts steady-state enzyme levels from experimental data. For low copper concentrations, the predicted Nos level is significantly reduced, whereas the levels for the non copper-dependent reductases in the pathway remain relatively unaffected. The model provides time courses for the pathway metabolites that accurately reflect previously published experimental data. In the absence of experimental data purely predictive analyses can also be readily performed by calculating the relative Nos level directly from the copper concentration. Here, the model quantitatively estimates the increasing level of emitted N2O as the copper level decreases.

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Layer Manufacturing of Heat Exchange Elements using Photochemical Machining, Electroplating and Diffusion Brazing

Bocking¹,

Jacobson²,

Bennett³

2000

Transactions of the IMF

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The Use of High Speed Selective Jet Electrodeposition of Gold for the Plating of Connectors

Bocking¹,

Cameron²

1994

Transactions of the IMF

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C. Bocking

Electroforming of rapid prototyping mandrels for electro-discharge machining electrodes

Modeling the effect of copper availability on bacterial denitrification

Layer Manufacturing of Heat Exchange Elements using Photochemical Machining, Electroplating and Diffusion Brazing

The Use of High Speed Selective Jet Electrodeposition of Gold for the Plating of Connectors

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