Project Description

Please read the project overview first.

1. Methane to methanol

Since the C-H bond in methane is very strong and requires expensive high tech equipment¹⁠ we want to explore the possibilities of bioconversion of methane. Methanotrophs are single-cell organisms that can oxidize methane and use it as their sole carbon and energy source²⁠. To date there are two enzyme complexes known that can do the task of breaking methane; soluble methane monooxygenase (sMMO), and the membrane bound particulate methane monooxygenase (pMMO)^1–3⁠. Both enzymes break methane with the following reaction:

CH₄ + O₂ + NADH + H⁺ --> CH₃OH + H₂O + NAD⁺

Other than that they both can convert methane to methanol and require oxygen for the process, are they structurally very different. Most methanotrophs express pMMO, whereas sMMO is less often present. pMMO is expressed at high copper levels, which makes sense as it uses copper in the core of the enzyme to break the strong C-H bond in methane. At low copper levels however, sMMO is expressed which uses iron-ions in the enzyme core for breaking methane.2–4⁠ The methanotroph Methylococcus capsulatus (Bath) (M. capsulatus (Bath)) is one of the most studied methanotrophs that has both pMMO and sMMO. In our project we used the sMMO operon of (M. capsulatus (Bath)), more information about sMMO (insert link to scroll down).