CSIRO Publishing

An international journal for chemical science

Shopping Cart: ( empty )

Articles citing this paper

Biomembrane-Active Molecular Switches as Tools for Intracellular Drug Delivery

Volga Bulmus ^A

+ Author Affiliations

- Author Affiliations

^A Center for Advanced Macromolecular Design (CAMD), School of Chemical Engineering and Industrial Chemistry, University of New South Wales, Sydney NSW 2052, Australia. Email: vbulmus@unsw.edu.au

Volga Bulmus received her Ph.D. in bioengineering from Hacettepe University, Ankara, in 2000. She worked as a postdoctoral fellow with Allan Hoffman and Pat Stayton at the University of Washington on the development of pH-responsive polymers for intracellular delivery of biomolecular drugs. In January 2004 she joined the CAMD at the University of New South Wales. Her research interests include the design, synthesis, and evaluation of polymeric materials for targetted drug delivery systems and diagnostics.

Australian Journal of Chemistry 58(6) 411-422 https://doi.org/10.1071/CH05066
Submitted: 9 March 2005 Accepted: 21 April 2005 Published: 14 June 2005

24 articles found in Crossref database.

pH-sensitive vesicles, polymeric micelles, and nanospheres prepared with polycarboxylates

Felber Arnaud E., Dufresne Marie-Hélène, Leroux Jean-Christophe

Advanced Drug Delivery Reviews. 2012 64(11). p.979

Polymerinduzierte transiente Poren in Lipidmembranen

Binder Wolfgang H.

Angewandte Chemie. 2008 120(17). p.3136

Reversible Surface Switching of Nanogel Triggered by External Stimuli

Shen Xiaochen, Zhang Leyang, Jiang Xiqun, Hu Yong, Guo Jian

Angewandte Chemie International Edition. 2007 46(37). p.7104

Synthesis, Characterization, and Properties of Copolyanhydrides Based on 2-Octylsuccinic Acid and Sebacic Acid

Hamdan Yousef M., Fu Shitao, Jiang Xiangmei, Cheng Yinhua, Huang Kaixun, Yu Kaichao

Australian Journal of Chemistry. 2008 61(10). p.762

Shell-Cross-Linked Micelles Containing Cationic Polymers Synthesized via the RAFT Process: Toward a More Biocompatible Gene Delivery System

Zhang Ling, Nguyen T. L. Uyen, Bernard Julien, Davis Thomas P., Barner-Kowollik Christopher, Stenzel Martina H.

Biomacromolecules. 2007 8(9). p.2890

Assessment of Cholesterol-Derived Ionic Copolymers as Potential Vectors for Gene Delivery

Sevimli Sema, Sagnella Sharon, Kavallaris Maria, Bulmus Volga, Davis Thomas P.

Biomacromolecules. 2013 14(11). p.4135

Well-Defined Cholesterol Polymers with pH-Controlled Membrane Switching Activity

Sevimli Sema, Inci Fatih, Zareie Hadi M., Bulmus Volga

Biomacromolecules. 2012 13(10). p.3064

Molecular Switches—Tools for Imparting Control in Drug Delivery Systems

Fitzmaurice Owen, Bartkowski Michał, Giordani Silvia

Frontiers in Chemistry. 2022 10

Doxorubicin conjugated, crosslinked, PEGylated particles prepared via one-pot thiol-ene modification of a homopolymer scaffold: synthesis and in vitro evaluation

Wong Lingjiun, Kavallaris Maria, Bulmus Volga

Polym. Chem.. 2011 2(2). p.385

Nanocarriers for Drug Targeting to Macrophages: Emerging Options for a Therapeutic Need

Dube Devyani, Gupta Madhu, Vyas Suresh P.

Proceedings of the National Academy of Sciences, India Section B: Biological Sciences. 2012 82(S1). p.151

The optimization of polymalic acid peptide copolymers for endosomolytic drug delivery

Ding Hui, Portilla-Arias Jose, Patil Rameshwar, Black Keith L., Ljubimova Julia Y., Holler Eggehard

Biomaterials. 2011 32(22). p.5269

Simultaneous intracellular delivery of targeting antibodies and functional nanoparticles with engineered protein G system

Lim Yong Taik, Cho Mi Young, Lee Jung Min, Chung Sang Jeon, Chung Bong Hyun

Biomaterials. 2009 30(6). p.1197

Synthesis, self-assembly and stimuli responsive properties of cholesterol conjugated polymers

Sevimli Sema, Sagnella Sharon, Kavallaris Maria, Bulmus Volga, Davis Thomas P.

Polymer Chemistry. 2012 3(8). p.2057

Acid-cleavable polymeric core–shell particles for delivery of hydrophobic drugs

Chan Yannie, Bulmus Volga, Zareie M. Hadi, Byrne Frances L., Barner Leonie, Kavallaris Maria

Journal of Controlled Release. 2006 115(2). p.197

Reversible Surface Switching of Nanogel Triggered by External Stimuli

Shen Xiaochen, Zhang Leyang, Jiang Xiqun, Hu Yong, Guo Jian

Angewandte Chemie. 2007 119(37). p.7234

Efficient Usage of Thiocarbonates for Both the Production and the Biofunctionalization of Polymers

Boyer Cyrille, Bulmus Volga, Davis Thomas P.

Macromolecular Rapid Communications. 2009 30(7). p.493

Targeted Drug Delivery : Concepts and Design (2015)

Agrawal Udita, Sharma Rajeev, Vyas Suresh P.

pH‐responsive poly(2‐ethylacrylic acid‐co‐alkyl methacrylate) copolymers as biomembrane switches

Jiang Guohua

Journal of Applied Polymer Science. 2009 114(4). p.2522

Polymer Special Issue Foreword

Lewis David

Australian Journal of Chemistry. 2005 58(6). p.377

Polymer‐Induced Transient Pores in Lipid Membranes

Binder Wolfgang H.

Angewandte Chemie International Edition. 2008 47(17). p.3092

Biomembrane‐Active Molecular Switches as Tools for Intracellular Drug Delivery

Bulmus Volga

ChemInform. 2005 36(37).

Cellular uptake mechanisms and potential therapeutic utility of peptidic cell delivery vectors: Progress 2001–2006

Fischer Peter M.

Medicinal Research Reviews. 2007 27(6). p.755

Bioapplications of RAFT Polymerization

Boyer Cyrille, Bulmus Volga, Davis Thomas P., Ladmiral Vincent, Liu Jingquan, Perrier Sébastien

Chemical Reviews. 2009 109(11). p.5402

Recent developments in polymer–block–polypeptide and protein–polymer bioconjugate hybrid materials

Johnson Renjith P., John Johnson V., Kim Il

European Polymer Journal. 2013 49(10). p.2925