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Literature DB >> 24058210

Quantitative analysis of generation and branch defects in G5 poly(amidoamine) dendrimer.

Mallory A van Dongen¹, Ankur Desai, Bradford G Orr, James R Baker, Mark M Banaszak Holl.

Abstract

Although methods have been developed to synthesize and isolate generation 5 (G5) PAMAM dendrimers containing precise numbers of ligands per polymer particle, the presence of skeletal and generational defects in this material can substantially hamper the process. Here we provide a quantitative analysis of G5 PAMAM dendrimer defects via high performance liquid chromatography, potentiometric titration, mass spectrometry, size exclusion chromatography, and nuclear magnetic resonance. We identified, isolated, and characterized the major structural defects of G5 dendrimer, trailing generations, and dimer, trimer, and tetramer species. We determine that the G5 material present in the as-received mixture contains 93 arms on average. We have developed two model systems capable of generating the experimentally observed mass range and polydispersity at defect rates of 8-15%.

Entities: Chemical Disease Gene Species

Keywords: HPLC; Mass spectrometry; PAMAM dendrimer

Year: 2013 PMID： 24058210 PMCID： PMC3775363 DOI： 10.1016/j.polymer.2013.05.062

Source DB: PubMed Journal: Polymer (Guildf) ISSN： 0032-3861 Impact factor: 4.430

38 in total

1. Computed tomography imaging of cancer cells using acetylated dendrimer-entrapped gold nanoparticles.

Authors: Han Wang; Linfeng Zheng; Chen Peng; Rui Guo; Mingwu Shen; Xiangyang Shi; Guixiang Zhang
Journal: Biomaterials Date: 2011-01-28 Impact factor: 12.479

2. The binding avidity of a nanoparticle-based multivalent targeted drug delivery platform.

Authors: Seungpyo Hong; Pascale R Leroueil; István J Majoros; Bradford G Orr; James R Baker; Mark M Banaszak Holl
Journal: Chem Biol Date: 2007-01

3. Poly(amidoamine) (PAMAM) dendrimers: from biomimicry to drug delivery and biomedical applications.

Authors: R Esfand; D A. Tomalia
Journal: Drug Discov Today Date: 2001-04-01 Impact factor: 7.851

Review 4. Capillary electrophoresis of poly(amidoamine) dendrimers: from simple derivatives to complex multifunctional medical nanodevices.

Authors: Xiangyang Shi; István J Majoros; James R Baker
Journal: Mol Pharm Date: 2005 Jul-Aug Impact factor: 4.939

5. Efficient in vitro siRNA delivery and intramuscular gene silencing using PEG-modified PAMAM dendrimers.

Authors: Yin Tang; Yang-Bing Li; Bo Wang; Ri-Yuan Lin; Mallory van Dongen; Danielle M Zurcher; Xiao-Yan Gu; Mark M Banaszak Holl; George Liu; Rong Qi
Journal: Mol Pharm Date: 2012-05-14 Impact factor: 4.939

6. The facile synthesis of multifunctional PAMAM dendrimer conjugates through copper-free click chemistry.

Authors: Baohua Huang; Jolanta F Kukowska-Latallo; Shengzhuang Tang; Hong Zong; Kali B Johnson; Ankur Desai; Chris L Gordon; Pascale R Leroueil; James R Baker
Journal: Bioorg Med Chem Lett Date: 2012-03-21 Impact factor: 2.823

7. Dendrimers as multi-purpose nanodevices for oncology drug delivery and diagnostic imaging.

Authors: D A Tomalia; L A Reyna; S Svenson
Journal: Biochem Soc Trans Date: 2007-02 Impact factor: 5.407

Review 8. Dendrimers as versatile platform in drug delivery applications.

Authors: Sonke Svenson
Journal: Eur J Pharm Biopharm Date: 2008-10-17 Impact factor: 5.571

9. PAMAM dendrimer-based multifunctional conjugate for cancer therapy: synthesis, characterization, and functionality.

Authors: István J Majoros; Andrzej Myc; Thommey Thomas; Chandan B Mehta; James R Baker
Journal: Biomacromolecules Date: 2006-02 Impact factor: 6.988

10. Activated and non-activated PAMAM dendrimers for gene delivery in vitro and in vivo.

Authors: Gemma Navarro; Conchita Tros de Ilarduya
Journal: Nanomedicine Date: 2009-01-19 Impact factor: 5.307

17 in total

1. Fluorophore:dendrimer ratio impacts cellular uptake and intracellular fluorescence lifetime.

Authors: Casey A Dougherty; Sriram Vaidyanathan; Bradford G Orr; Mark M Banaszak Holl
Journal: Bioconjug Chem Date: 2015-02-05 Impact factor: 4.774

2. Isolation and characterization of precise dye/dendrimer ratios.

Authors: Casey A Dougherty; Joseph C Furgal; Mallory A van Dongen; Theodore Goodson; Mark M Banaszak Holl; Janet Manono; Stassi DiMaggio
Journal: Chemistry Date: 2014-03-06 Impact factor: 5.236

3. Increase in Dye:Dendrimer Ratio Decreases Cellular Uptake of Neutral Dendrimers in RAW Cells.

Authors: Sriram Vaidyanathan; Milan Kaushik; Casey Dougherty; Rahul Rattan; Sascha N Goonewardena; Mark M Banaszak Holl; Janet Monano; Stassi DiMaggio
Journal: ACS Biomater Sci Eng Date: 2016-07-18

4. PAMAM Dendrimers as Quantized Building Blocks for Novel Nanostructures.

Authors: Mallory A van Dongen; S Vaidyanathan; Mark M Banaszak Holl
Journal: Soft Matter Date: 2013-12-21 Impact factor: 3.679

5. Rapid Exchange Between Free and Bound States in RNA-Dendrimer Polyplexes: Implications on the Mechanism of Delivery and Release.

Authors: Anisha Shakya; Casey A Dougherty; Yi Xue; Hashim M Al-Hashimi; Mark M Banaszak Holl
Journal: Biomacromolecules Date: 2015-12-11 Impact factor: 6.988

6. Characterization of Polyamidoamino (PAMAM) Dendrimers Using In-Line Reversed Phase LC Electrospray Ionization Mass Spectrometry.

Authors: John R Lloyd; P Suresh Jayasekara; Kenneth A Jacobson
Journal: Anal Methods Date: 2015-12-07 Impact factor: 2.896

Review 7. Tweaking dendrimers and dendritic nanoparticles for controlled nano-bio interactions: potential nanocarriers for improved cancer targeting.

Authors: Jason Bugno; Hao-Jui Hsu; Seungpyo Hong
Journal: J Drug Target Date: 2015 Impact factor: 5.121