Extraction and quantitation of digoxin and acetyldigoxin from the Digitalis lanata leaf via near-supercritical methanol-modified carbon dioxide

C6 picoloyl protection: a remote stereodirecting group for 2-deoxy-β-glycoside formation

We reported a remote control glycosylation method using the picoloyl protecting group for 2-deoxy-β-glycosidic bond formation. The method is applicable to various 2-deoxythioglycosyl donors and the utility is illustrated by the synthesis of a deoxytrisaccharide component of landomycins.

Homology modeling of target proteins and identification novel antifungal compounds against Candida tropicalis through structure based virtual screening

Candida tropicalis, the etiological agent of candidiasis evades the immune system and survive in the human host for decades. Currently there are not many drugs available in the market to treat these fungal infections. The increasing number of fungal infections necessitates the need for new drug candidates that can be used to treat fungal infections such as candida. Many natural products available in plants, animals and microorganisms exhibit potent anti-microbial activity; but they are not explored to their potential. Virtual screening of anti-microbials against known targets accelerates the process of drug discovery and development. In the present study, a total of 27 compounds of natural origin such as plants, microbes and marine sponges were evaluated for their ability to interact with four of the new targets. The study revealed the effectiveness of 3 compounds with improved binding affinity against the four target proteins; that could be used as lead compounds in designing new drug candidates.

Synthesis of libraries of thiazole, oxazole and imidazole-based cyclic peptides from azole-based amino acids. A new synthetic approach to bistratamides and didmolamides

Treatment of a 1 : 1 mixture of the thiazole-based amino acids 8a and 8b with FDPP-i-Pr(2)NEt in CH(3)CN gave a mixture of the cyclic trimers 14, 15, 16 and 17 and the cyclic tetramers 19 and 23 in the ratio 2 : 7 : 5 : 8 : 1 : 1 and in a combined yield of 70%. Separate coupling reactions between the bisimidazole amino acid 45 and the thiazole/oxazole amino acids 43a and 42a in the presence of FDPP-i-Pr(2)NEt led to the bisimidazole based cyclic trimers 55 and 57 respectively (54-57%) and to the cyclic tetramer 56 (8-11%). Similar coupling reactions involving the bisthiazole and bisoxazole amino acids 49 and 47 with the imidazole/oxazole/thiazole amino acids 41a, 42a and 43a gave rise to the library of oxazole, thiazole and imidazole-based cyclic peptides 58, 59, 60, 61, 62, 63, 64 and 65. A coupling reaction between the bisthiazole amino acid 49 and the oxazole amino acid 73 led to an efficient (36% overall) synthesis of bistratamide H (67) found in the ascidian Lissoclinum bistratum. Coupling reactions involving oxazolines with thiazole amino acids were less successful. Thus, a coupling reaction between the phenylalanine-based oxazoline amino acid 71a and either the thiazole amino acid 8a or the bisthiazole amino acid 74 gave only a 2% yield of the cyclic hexapeptide didmolamide A (4) found in the ascidian Didemnum molle. Didmolamide B (68) was obtained in 9% yield from a coupling reaction between 74 and the phenylalanine threonine amino acid 72, using either FDPP or DPPA.