848474-33-9Relevant academic research and scientific papers
Rational Design of Programmable Monodisperse Semi-Synthetic Protein Nanomaterials Containing Engineered Disulfide Functionality**
Bhandari, Pavankumar Janardhan,Sandanaraj, Britto S.
, p. 2966 - 2972 (2021/08/07)
The reversible nature of disulfide functionality has been exploited to design intelligent materials such as nanocapsules, micelles, vesicles, inorganic nanoparticles, peptide and nucleic acid nanodevices. Herein, we report a new chemical methodology for t
GENERATION-DEPENDENT SUPRAMOLECULAR ASSEMBLIES OF PROTEIN-DENDRON CONJUGATES
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Page/Page column 22; 26, (2019/06/23)
The present invention discloses monodisperse protein-dendron conjugates that self-assemble to generation-dependent supramolecular protein assemblies of different size and surface charges. The invention further provides a process for synthesis of protein-dendron conjugates containing hydrophobic dendron of different generations.
Probing every layer in dendrons
Sivanandan, Kulandaivelu,Aathimanikandan, Sivakumar V.,Arges, Christopher G.,Bardeen, Christopher J.,Thayumanavan
, p. 2020 - 2021 (2007/10/03)
Dendrons with a fluorescent probe in a specific location have been synthesized and characterized. Accessibility of guest molecules to each of these layers was then analyzed using an intermolecular photoinduced electron-transfer process. Comparisons of the
Effect of guest molecule flexibility in access to dendritic interiors
Aathimanikandan, Sivakumar V.,Sandanaraj, Britto S.,Arges, Christopher G.,Bardeen, Christopher J.,Thayumanavan
, p. 2809 - 2812 (2007/10/03)
(Figure Presented) Dendrimers are attractive scaffolds for catalysis, since catalytic sites can be isolated and the catalysts are recoverable and reusable. Herein, we show that conformationally constrained molecules have better access to dendritic cores c
