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Synthetically controlling dendrimer flexibility improves delivery of large plasmid DNA.
Kretzmann, Jessica A; Ho, Diwei; Evans, Cameron W; Plani-Lam, Janice H C; Garcia-Bloj, Benjamin; Mohamed, A Elaaf; O'Mara, Megan L; Ford, Ethan; Tan, Dennis E K; Lister, Ryan; Blancafort, Pilar; Norret, Marck; Iyer, K Swaminathan.
Afiliación
  • Kretzmann JA; School of Molecular Sciences , The University of Western Australia , 35 Stirling Hwy , Crawley , WA 6009 , Australia . Email: marck.norret@uwa.edu.au ; Email: swaminatha.iyer@uwa.edu.au.
  • Ho D; Harry Perkins Institute of Medical Research , 6 Verdun St , Nedlands , WA 6009 , Australia . Email: pilar.blancafort@uwa.edu.au.
  • Evans CW; School of Molecular Sciences , The University of Western Australia , 35 Stirling Hwy , Crawley , WA 6009 , Australia . Email: marck.norret@uwa.edu.au ; Email: swaminatha.iyer@uwa.edu.au.
  • Plani-Lam JHC; School of Molecular Sciences , The University of Western Australia , 35 Stirling Hwy , Crawley , WA 6009 , Australia . Email: marck.norret@uwa.edu.au ; Email: swaminatha.iyer@uwa.edu.au.
  • Garcia-Bloj B; Harry Perkins Institute of Medical Research , 6 Verdun St , Nedlands , WA 6009 , Australia . Email: pilar.blancafort@uwa.edu.au.
  • Mohamed AE; Harry Perkins Institute of Medical Research , 6 Verdun St , Nedlands , WA 6009 , Australia . Email: pilar.blancafort@uwa.edu.au.
  • O'Mara ML; Research School of Chemistry , Australian National University , Canberra , ACT 2601 , Australia.
  • Ford E; Research School of Chemistry , Australian National University , Canberra , ACT 2601 , Australia.
  • Tan DEK; School of Molecular Sciences , The University of Western Australia , 35 Stirling Hwy , Crawley , WA 6009 , Australia . Email: marck.norret@uwa.edu.au ; Email: swaminatha.iyer@uwa.edu.au.
  • Lister R; Harry Perkins Institute of Medical Research , 6 Verdun St , Nedlands , WA 6009 , Australia . Email: pilar.blancafort@uwa.edu.au.
  • Blancafort P; ARC Centre of Excellence in Plant Energy Biology , The University of Western Australia , 35 Stirling Hwy , Crawley , WA 6009 , Australia.
  • Norret M; School of Molecular Sciences , The University of Western Australia , 35 Stirling Hwy , Crawley , WA 6009 , Australia . Email: marck.norret@uwa.edu.au ; Email: swaminatha.iyer@uwa.edu.au.
  • Iyer KS; Harry Perkins Institute of Medical Research , 6 Verdun St , Nedlands , WA 6009 , Australia . Email: pilar.blancafort@uwa.edu.au.
Chem Sci ; 8(4): 2923-2930, 2017 Apr 01.
Article en En | MEDLINE | ID: mdl-28451358
ABSTRACT
Tools for editing the genome and epigenome have revolutionised the field of molecular biology and represent a new frontier in targeted therapeutic intervention. Although efficiencies and specificities of genome editing technologies have improved with the development of TALEs and CRISPR platforms, intracellular delivery of these larger constructs still remains a challenge using existing delivery agents. Viral vectors, including lentiviruses and adeno-associated viruses, as well as some non-viral strategies, such as cationic polymers and liposomes, are limited by packaging capacity, poor delivery, toxicity, and immunogenicity. We report a highly controlled synthetic strategy to engineer a flexible dendritic polymer using click chemistry to overcome the aforementioned delivery challenges associated with genome engineering technologies. Using a systematic approach, we demonstrate that high transfection efficiencies and packaging capacity can be achieved using this non-viral delivery methodology to deliver zinc fingers, TALEs and CRISPR/dCas9 platforms.
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Texto completo: 1 Colección: 01-internacional Banco de datos: MEDLINE Idioma: En Revista: Chem Sci Año: 2017 Tipo del documento: Article
Texto completo
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PubMed Links
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Texto completo: 1 Colección: 01-internacional Banco de datos: MEDLINE Idioma: En Revista: Chem Sci Año: 2017 Tipo del documento: Article