Reply to the comment on "two dimensional NMR study on the structures of micelles of sodium taurocholate"

Article Abstract:

The dimer and micelle of sodium taurocholate (TC) have the back-to-back structure as revealed by two-dimensional NMR spectroscopy. The dimer and micelles of TC in aqueous media have the back-to-back structure association (normal micelle) driven by hydrophobic interaction instead of those of face-to-face association (reverse micelle) driven by ionic interaction of hydrogen bonds.

Analysis, Nuclear magnetic resonance spectroscopy, Hydrogen bonds

---

Hydrophobic self-association of sodium taurochenodeoxycholate and tauroursodeoxycholate

Article Abstract:

The aggregation patterns of sodium taurochenodeoxycholate and tauroursodeoxycholate (TUDC) in an isotonic sodium chloride solution are investigated. The result suggests that 7beta-hydroxyl group of TUDC inhibits micellar growth because of increased intermolecular mismatching contact with the hydrophobic surface and decreased intermolecular hydrogen bonds in the micelle.

Hydroxides, Hydrophobic effect

---

Two-dimensional NMR study on the structures of micelles of sodium taurocholate

Article Abstract:

The micellar structure of sodium taurocolate (TC) in the deutrium oxide on the basis of two-dimensional NOE spectroscopy is presented. It is concluded that the concentration dependence of the chemical shift of TC is explicable in terms of dimerizatin and pentamierization.

Industrial inorganic chemicals, not elsewhere classified, Heavy Water, Usage, Nuclear magnetic resonance, Structure

Similar abstracts:

• Abstracts: Ram spectroscopic study on the structure of water in aqueous polyelectrolyte solutions. Global minima of water clusters (H2O)(sub N), N (less than equal to) 25, described by three empirical potentials
• Abstracts: A theoretical study on the interactions of hydrogen species with various carbon and boron nitride phases. Very low-field emission from aligned and opened carbon nanotube arrays
• Abstracts: New approach to the formation mechanism of AgCl nanoparticles in a reverse micelle system. Fast diffusion of the Cl(super -) ion in the headgroup region of an oppositely charged micelle. A (super 35)Cl NMR spin relaxation study
• Abstracts: From excitatory to inhibitory connections in networks of discrete electrochemical oscillators. Experiments on synchronization and control of chaos on coupled electrochemical oscillators
• Abstracts: Identification of the conformation of individual molecules by scanning tunneling microscopy. Manipulating self-assembly with achiral molecules: an STM study of chiral segregation by achiral adsorbates

This website is not affiliated with document authors or copyright owners. This page is provided for informational purposes only. Unintentional errors are possible.