Trefault, N., De la Iglesia, R., Molina, A., Manzano, M., Ledger, T., Perez-Pantoja, D., . . . Gonzalez, B. (2004). Genetic organization of the catabolic plasmid pjp4 from ralstonia eutropha jmp134 (pjp4) reveals mechanisms of adaptation to chloroaromatic pollutants and evolution of specialized chloroaromatic degradation pathways.
Citación estilo ChicagoTrefault, N., R. De la Iglesia, AM Molina, M. Manzano, T. Ledger, D. Perez-Pantoja, MA Sanchez, M. Stuardo, y B. Gonzalez. Genetic Organization of the Catabolic Plasmid Pjp4 From Ralstonia Eutropha Jmp134 (pjp4) Reveals Mechanisms of Adaptation to Chloroaromatic Pollutants and Evolution of Specialized Chloroaromatic Degradation Pathways. 2004.
Cita MLATrefault, N., et al. Genetic Organization of the Catabolic Plasmid Pjp4 From Ralstonia Eutropha Jmp134 (pjp4) Reveals Mechanisms of Adaptation to Chloroaromatic Pollutants and Evolution of Specialized Chloroaromatic Degradation Pathways. 2004.