Mohamad Osman scite author profile

The metabolism of the systemic insecticide Temik has been investigated in the cotton plant and in the housefly using C14-labeled radiotracers and column and thin layer chromatography. Temik is readily and completely oxidized to its sulfoxide within 4 to 9 days in cotton leaves at moderate temperatures. The sulfoxide which is more active as a cholinesterase inhibitor is the active metabolite and its long term persistence and rela-

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Electron cryo-microscopic studies on micellar shape and size of surfactin, an anionic lipopeptide

Knoblich¹,

Matsumoto²,

Ishiguro³

et al. 1995

Colloids and Surfaces B: Biointerfaces

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Tuning micelles of a bioactive heptapeptide biosurfactant via extrinsically induced conformational transition of surfactin assembly

Osman¹,

Høiland

Holmsen

et al. 1998

J. Peptide Sci.

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We have studied the effects of extrinsic environmental conditions on the conformation of surfactin, a heptapeptide biosurfactant from Bacillus subtilis, in aqueous solutions. It has been made clear that temperature, pH, Ca2+ ions and the synthetic nonionic surfactant hepta-ethylene glycol (C12E7) affect the conformation of surfactin in aqueous solutions. The beta-sheet formation reached a maximum at 40 degrees C both in presence and absence of (C12E7) and the nonionic surfactant enhances the beta-sheet formation even at 25 degrees C. Ca2 + induced the formation of alpha-helices and caused this transition at 0.3 mM with surfactin monomers or at 0.5 mM with surfactin micelles, but above these transition concentrations of Ca2+ beta-sheets were observed. In micellar solution the beta-sheet structure was stabilized at pH values below 7 or upon addition of Ca2+ in concentrations above 0.5 mM. Our results indicated that the bioactive conformation of surfactin is most likely the beta-sheets when the molecules are assembled in micelles. The beta-sheet structure in micelles could be retained by tuning the micelles. Surfactin micelles could be tuned in the bioactive conformation by manipulating pH, temperature, Ca2+ or (C12E7) concentrations in surfactin solutions. Our results strongly indicated that Ca2+ and other molecules (such as C12E7) may function as directing templates in the assembly and conformation of surfactin in micelles. Thus, we suggest environmental manipulation and template-aided micellation (TAM) as a new approach for preparing predesigned micelles, microemulsions or micro-spheres for specific application purposes.

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Micropolarity and microviscosity in the micelles of the heptapeptide biosurfactant “surfactin”

Osman¹,

Høiland²,

Holmsen³

1998

Colloids and Surfaces B: Biointerfaces

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Mohamad Osman

Significance of β-sheet formation for micellization and surface adsorption of surfactin

Metabolism of 2-Methyl-2-(methylthio)propionaldehyde O-(Methylcarbamoyl)oxime in Plant and Insect

Electron cryo-microscopic studies on micellar shape and size of surfactin, an anionic lipopeptide

Tuning micelles of a bioactive heptapeptide biosurfactant via extrinsically induced conformational transition of surfactin assembly

Micropolarity and microviscosity in the micelles of the heptapeptide biosurfactant “surfactin”

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