Synthesis of peptide dendrimers with polyhedral oligomeric silsesquioxane cores via click chemistry
English
Synthesis of peptide dendrimers with polyhedral oligomeric silsesquioxane cores via click chemistry
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Key words:
- Peptide dendrimer
- / Polyhedral oligomeric silsesquioxane
- / Click chemistry
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[3] Z. Gu, K. Luo, W. She, et al., New-generation biomedical materials: peptide dendrimers and their application in biomedicine, Sci. China Chem. 53 (2010) 458-478.[3] Z. Gu, K. Luo, W. She, et al., New-generation biomedical materials: peptide dendrimers and their application in biomedicine, Sci. China Chem. 53 (2010) 458-478.
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[4] X. Xu, H. Yuan, J. Chang, et al., Cooperative hierarchical self-assembly of peptide dendrimers and linear polypeptides into nanoarchitectures mimicking viral capsids, Angew. Chem. 124 (2012) 3184-3187.[4] X. Xu, H. Yuan, J. Chang, et al., Cooperative hierarchical self-assembly of peptide dendrimers and linear polypeptides into nanoarchitectures mimicking viral capsids, Angew. Chem. 124 (2012) 3184-3187.
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[5] P. Wu, A.K. Feldman, A.K. Nugent, et al., Efficiency and fidelity in a click-chemistry route to triazole dendrimers by the copper(I)-catalyzed ligation of azides and alkynes, Angew. Chem. Int. Ed. 43 (2004) 3928-3932.[5] P. Wu, A.K. Feldman, A.K. Nugent, et al., Efficiency and fidelity in a click-chemistry route to triazole dendrimers by the copper(I)-catalyzed ligation of azides and alkynes, Angew. Chem. Int. Ed. 43 (2004) 3928-3932.
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[6] Y. Pu, S. Chang, H. Yuan, et al., The anti-tumor efficiency of poly (L-glutamic acid) dendrimers with polyhedral oligomeric silsesquioxane cores, Biomaterials 34 (2013) 3658-3666.[6] Y. Pu, S. Chang, H. Yuan, et al., The anti-tumor efficiency of poly (L-glutamic acid) dendrimers with polyhedral oligomeric silsesquioxane cores, Biomaterials 34 (2013) 3658-3666.
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[7] T.L. Kaneshiro, X. Wang, Z.R. Lu, Synthesis, characterization, and gene delivery of poly-L-lysine octa (3-aminopropyl) silsesquioxane dendrimers: nanoglobular drug carriers with precisely defined molecular architectures, Mol. Pharm. 4 (2007) 759-768.[7] T.L. Kaneshiro, X. Wang, Z.R. Lu, Synthesis, characterization, and gene delivery of poly-L-lysine octa (3-aminopropyl) silsesquioxane dendrimers: nanoglobular drug carriers with precisely defined molecular architectures, Mol. Pharm. 4 (2007) 759-768.
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[8] J.J. Schwab, J.D. Lichtenhan, Polyhedral oligomeric silsesquioxane (POSS)-based polymers, Appl. Organomet. Chem. 12 (1998) 707-713.[8] J.J. Schwab, J.D. Lichtenhan, Polyhedral oligomeric silsesquioxane (POSS)-based polymers, Appl. Organomet. Chem. 12 (1998) 707-713.
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[9] R. Zhu, W. Jiang, Y. Pu, et al., Functionalization of magnetic nanoparticles with peptide dendrimers, J. Mater. Chem. 21 (2011) 5464-5474.[9] R. Zhu, W. Jiang, Y. Pu, et al., Functionalization of magnetic nanoparticles with peptide dendrimers, J. Mater. Chem. 21 (2011) 5464-5474.
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[10] Y. Li, Q. Li, F. Li, et al., Amphiphilic poly(L-lactide)-b-dendritic poly(L-lysine)s synthesized with a metal-free catalyst and new dendron initiators: chemical preparation and characterization, Biomacromolecules 7 (2006) 224-231.[10] Y. Li, Q. Li, F. Li, et al., Amphiphilic poly(L-lactide)-b-dendritic poly(L-lysine)s synthesized with a metal-free catalyst and new dendron initiators: chemical preparation and characterization, Biomacromolecules 7 (2006) 224-231.
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