Lignin, component of plant secondary cell wall, binds to hemicellulose by covalent bonds and defends bacteria or fungi invading into the core of the wood. Lignin is a complicated polymer composed of aromatic compounds, which are ferulic acid, sinapic acid and p-coumaric acid etc. In paper pulping industry, lignin is hard-degradable and influences the brightness of paper. Generally, people use concentrated acid or alkali to precipitate or dissolve lignin. In recent study, the paper would be brighter and whiter by using manganese peroxidase in pulping procedure. Manganese peroxidase, which was first isolated from white rot fungi Phanerochaete chrysosporium by Glenn and Gold in 1985, belongs to heme-containing peroxidase family. This extracellular enzyme is a glycoprotein with five disulfide bonds in general and contains two calcium ions in the structure. When it catalyses the substrates, hydrogen peroxide which produced by glyoxal oxidase or aryl-alcohol oxidase is necessary as electron donor. Mn(II) would be oxidized to Mn(III) by heme-oxygen radical complex. Mn(III) cations would be stabilized by alfa-hydroxyl acids, such as succinic acid or lactic acid, and oxidize lignin or lignin-like compounds. Manganese peroxidase has been found in many of white rot fungi, including Trametes versicolor, Pleurotus ostreatus, Armillaria mellea, etc, however, the studies of manganese peroxidase from Ganoderma spp. are few and most of them were focus on preotein level. The only published cDNA sequence was from G. applanatum. In this study, we cloned six new sequences of manganese peroxidase from G. formosanum, G. neo-japonicum and G. australe. Furthermore, we expressed the manganese peroxidase of G. formosanum in Escherichia coli and Pichia methanolica and produced recombinant enzyme.