Arora, M., Ganugula, R., Kumar, N., Kaur, G., Pellois, J., Garg, P., & Kumar, M. N. V. R. (2019). Next-Generation Noncompetitive Nanosystems Based on Gambogic Acid: In silico Identification of Transferrin Receptor Binding Sites, Regulatory Shelf Stability, and Their Preliminary Safety in Healthy Rodents. ACS Appl Bio Mater.
Chicago Style citaatArora, M., R. Ganugula, N. Kumar, G. Kaur, J.-P Pellois, P. Garg, en M. N. V. Ravi Kumar. "Next-Generation Noncompetitive Nanosystems Based On Gambogic Acid: In Silico Identification of Transferrin Receptor Binding Sites, Regulatory Shelf Stability, and Their Preliminary Safety in Healthy Rodents." ACS Appl Bio Mater 2019.
MLA citatieArora, M., et al. "Next-Generation Noncompetitive Nanosystems Based On Gambogic Acid: In Silico Identification of Transferrin Receptor Binding Sites, Regulatory Shelf Stability, and Their Preliminary Safety in Healthy Rodents." ACS Appl Bio Mater 2019.