TY - JOUR
T1 - Water-soluble octahedral polyammonium nanocapsules
T2 - synthesis and encapsulation studies
AU - Liu, Xuejun
AU - Sun, Junling
AU - Warmuth, Ralf
N1 - Funding Information:
We warmly thank the National Science Foundation of financial support of this research (Grant CHE-0518351).
PY - 2009/8/29
Y1 - 2009/8/29
N2 - The syntheses of two water-soluble octahedral polyammonium nanocapsules 5e and 5f are described. Nanocapsule 5e was prepared via the TFA-catalyzed condensation reaction of six MOM-protected 4-hydroxybutyl-footed tetraformyl cavitands 3c with 12 ethylene diamines, followed by reduction and acidic hydrolysis of the intermediate octahedral polyimino nanocapsule. Nanocapsule 5f was prepared from 5e via the oxidation of the 4-hydroxybutyl feet to 3-carboxypropyl feet. Both nanocapsules are soluble in water below pH 5. 5f is also water-soluble above pH 7. In acidic aqueous solution, nanocapsule 5e encapsulates small negatively charged, partially hydrophobic guests, such as p-toluenesulfonic acid, N-BOC-aspartic acid, or 4-methylumbelliferyl phosphate. The single site microscopic binding constants for the latter guests are 150±30, 510±50, 1550±150 M-1, respectively and were determined from 1H NMR titrations and DOSY experiments by assuming a 6:1 binding model with six identical, independent binding sites per nanocapsule (statistical binding). 5e doesn't bind small neutral hydrophobic molecules in aqueous solution. However, both nanocapsules bind to nucleotides, such as ATP, dAMP, dGMP or TTP. NMR experiments support that nucleotides are not encapsulated, but bind to the outside of the nanocapsules.
AB - The syntheses of two water-soluble octahedral polyammonium nanocapsules 5e and 5f are described. Nanocapsule 5e was prepared via the TFA-catalyzed condensation reaction of six MOM-protected 4-hydroxybutyl-footed tetraformyl cavitands 3c with 12 ethylene diamines, followed by reduction and acidic hydrolysis of the intermediate octahedral polyimino nanocapsule. Nanocapsule 5f was prepared from 5e via the oxidation of the 4-hydroxybutyl feet to 3-carboxypropyl feet. Both nanocapsules are soluble in water below pH 5. 5f is also water-soluble above pH 7. In acidic aqueous solution, nanocapsule 5e encapsulates small negatively charged, partially hydrophobic guests, such as p-toluenesulfonic acid, N-BOC-aspartic acid, or 4-methylumbelliferyl phosphate. The single site microscopic binding constants for the latter guests are 150±30, 510±50, 1550±150 M-1, respectively and were determined from 1H NMR titrations and DOSY experiments by assuming a 6:1 binding model with six identical, independent binding sites per nanocapsule (statistical binding). 5e doesn't bind small neutral hydrophobic molecules in aqueous solution. However, both nanocapsules bind to nucleotides, such as ATP, dAMP, dGMP or TTP. NMR experiments support that nucleotides are not encapsulated, but bind to the outside of the nanocapsules.
KW - Cavitand
KW - Dynamic covalent chemistry
KW - Host-guest chemistry
KW - Molecular container
KW - Molecular recognition
KW - Nanocapsule
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U2 - 10.1016/j.tet.2009.06.056
DO - 10.1016/j.tet.2009.06.056
M3 - Article
AN - SCOPUS:67651087290
SN - 0040-4020
VL - 65
SP - 7303
EP - 7310
JO - Tetrahedron
JF - Tetrahedron
IS - 35
ER -