Methanolysis products of sulfomycin I

Sulfcaycin I (,)l) ' c55-57H56-64N15-17020-22s2' asulfur-containingpsptideantibiotic, was hydrolyzed for 6 hours atllO" in amt.-HClin a ssalsdtti. Yellow needles &ich dspositedoutaftier ooolingwererecrystallissd frunm.-HCltogivsan an@otericm (gl as hydro&l.orids: C12H6N205S-HCl.H20; m.p.>220°klsc.);

The structure of sulfomycin I, a modified peptide antibiotic, was

## Abstract **BACKGROUND:** Biodiesel is increasingly perceived as an important component of solutions to the important current issues of fossil fuel shortages and environmental pollution. Biocatalysis of soybean oils using soluble lipase offers an alternative approach to lipase‐catalyzed biodiesel

## Abstract Biodiesel is a renewable fuel conventionally prepared by transesterification of pre‐extracted vegetable oils and animal fats of all resources with methanol, catalyzed by strong acids or bases. This paper reports on a novel biodiesel production method that features acid‐promoted direct m

Early e †orts to utilize 15N NMR spectroscopy in structure elucidation studies were often frustrated by the low gyromagnetic ratio and the low natural abundance (0.37%) of the nuclide. The advent of 1H and (c N ) inverse-detected 2D NMR methods has eliminated many of the difficulties inherent to the