52189-70-5Relevant articles and documents
Alkylresorcylic acid synthesis by type III polyketide synthases from rice Oryza sativa
Matsuzawa, Miku,Katsuyama, Yohei,Funa, Nobutaka,Horinouchi, Sueharu
experimental part, p. 1059 - 1067 (2011/03/20)
Alkylresorcinols, produced by various plants, bacteria, and fungi, are bioactive compounds possessing beneficial activities for human health, such as anti-cancer activity. In rice, they accumulate in seedlings, contributing to protection against fungi. Alkylresorcylic acids, which are carboxylated forms of alkylresorcinols, are unstable compounds and decarboxylate readily to yield alkylresorcinols. Genome mining of the rice Oryza sativa identified two type III polyketide synthases, named ARAS1 (alkylresorcylic acid synthase) and ARAS2, that catalyze the formation of alkylresorcylic acids. Both enzymes condensed fatty acyl-CoAs with three C2 units from malonyl-CoA and cyclized the resulting tetraketide intermediates via intramolecular C-2 to C-7 aldol condensation. The alkylresorcylic acids thus produced were released from the enzyme and decarboxylated non-enzymatically to yield alkylresorcinols. This is the first report on a plant type III polyketide synthase that produces tetraketide alkylresorcylic acids as major products.
Total synthesis of CRM646-A and -B, two fungal glucuronides with potent heparinase inhibition activities
Wang, Ping,Zhang, Zhaojun,Yu, Biao
, p. 8884 - 8889 (2007/10/03)
CRM646-A (1) and -B (2), two fungal glucuronides with a dimeric 2,4-dihydroxy-6-alkylbenzoic acid (orcinol p-depside) aglycone showing significant heparinase and telomerase inhibition activities, were synthesized for the first time. The successful approac