Biological conversion of methane to polyhydroxyalkanoates: Current advances, challenges, and perspectives.

ABSTRACT

Methane emissions and plastic pollution are critical global challenges. The biological conversion of methane to poly-ß-hydroxybutyrate (PHB) not only mitigates methane emissions but also provides biodegradable polymer substitutes for petroleum-based materials used in plastics production. This work provides an early overview of the methane-based PHB advances and discusses challenges and related strategies. Recent advances of PHB, including PHB biosynthetic pathways, methanotrophs, bioreactors, and the performances of PHB materials are introduced. Major challenges of methane-based PHB production are discussed in detail; these include low efficiency of methanotrophs, low gas-liquid mass transfer efficiency, and poor material properties. To overcome these limitations, various approaches are also explored, such as feast-famine regimes, engineered microorganisms, gas-permeable membrane bioreactors, two-phase partitioning bioreactors, poly-ß-hydroxybutyrate-co-hydroxyvalerate synthesis, and molecular weight manipulation.