APA

Mehta D., Leong N., McLeod V. M., Kelly B. D., Pathak R., Owen D. J., Porter C. J. H. & Kaminskas L. M. (20190819). Reducing Dendrimer Generation and PEG Chain Length Increases Drug Release and Promotes Anticancer Activity of PEGylated Polylysine Dendrimers Conjugated with Doxorubicin via a Cathepsin-Cleavable Peptide Linker. : Molecular pharmaceutics.

Chicago

Mehta Dharmini, Leong Nathania, McLeod Victoria M, Kelly Brian D, Pathak Rashmi, Owen David J, Porter Christopher J H and Kaminskas Lisa M. 20190819. Reducing Dendrimer Generation and PEG Chain Length Increases Drug Release and Promotes Anticancer Activity of PEGylated Polylysine Dendrimers Conjugated with Doxorubicin via a Cathepsin-Cleavable Peptide Linker. : Molecular pharmaceutics.

Harvard

Mehta D., Leong N., McLeod V. M., Kelly B. D., Pathak R., Owen D. J., Porter C. J. H. and Kaminskas L. M. (20190819). Reducing Dendrimer Generation and PEG Chain Length Increases Drug Release and Promotes Anticancer Activity of PEGylated Polylysine Dendrimers Conjugated with Doxorubicin via a Cathepsin-Cleavable Peptide Linker. : Molecular pharmaceutics.

MLA

Mehta Dharmini, Leong Nathania, McLeod Victoria M, Kelly Brian D, Pathak Rashmi, Owen David J, Porter Christopher J H and Kaminskas Lisa M. Reducing Dendrimer Generation and PEG Chain Length Increases Drug Release and Promotes Anticancer Activity of PEGylated Polylysine Dendrimers Conjugated with Doxorubicin via a Cathepsin-Cleavable Peptide Linker. : Molecular pharmaceutics. 20190819.