This genome was sequenced as a part of the big-scale multi-genome JGI CSP Saprotrophic Agaricomycotina Project (SAP), which focuses on the range and evolution of decay mechanisms, organismal phylogenetic relationships, and developmental evolution. Researchers who wish to publish analyses using information from unpublished SAP genomes are respectfully required to contact the PI and JGI to avoid potential conflicts on information use and coordinate other publications with the SAP master paper(s). A large collaborative effort led by PI of this mission, David Hibbett (Clark University) aims for grasp publication(s) of the SAP data evaluation. Trametes versicolor (L.) Lloyd is an extensively distributed Basidiomycetes species, generally collected on standing dead or fallen hardwood bushes. Along with other species Trametes versicolor is a first-rate wood decomposer, inflicting robust white rot within the colonized wooden. The white rot kind biochemistry of T. versicolor together with its large distribution makes it an excellent candidate for studies of the complicated ligninocellulolytic system. Several research have demonstrated the secretion of different types of wooden degrading enzymes equivalent to lignin peroxidases, manganese peroxidases and laccases in liquid and stable fermentation cultures of the species. T. versicolor has additionally been used successfully in a number of ex situ. The sequencing of the genome of T. versicolor will shed more gentle into the evolution of wood degradation mechanisms of the Polyporoid clade and can present us with a great broad comparison with the genomes of different vital wooden-rotting species corresponding to Phanerochaete chrysosporium, microdose shroom capsules Postia placenta and Serpula lacrymans. In situ bioremediation research for the biodegradation of recalcitrant natural pollutants. Furthermore, it will present the instruments for broader studies of the wooden degradation chemistry and the associated bioremediation processes.