Variation of Proanthocyanidins in Lotus Species

Abstract

The proanthocyanidin (PA) chemistry of 12 Lotus species of previously unknown PA content was examined in comparison with agricultural cultivars of L. pedunculatus, L. corniculatus, and L. tenuis and a "creeping" selection of L. corniculatus. Herbage harvested in winter 2000 and again in spring had extractable PA concentrations, estimations of which varied between 0.2 and 10.9% of dry matter. The four novel Lotus spp. with the highest concentrations were selected for further evaluation together with the agricultural accessions. PA concentrations in herbage were estimated for individual plants harvested in spring 2001 and bulk samples harvested in summer 2002-2003. PA oligomer and polymer fractions were separated by Sephadex LH-20 chromatography from aqueous acetone PA extracts of herbage. The chemical characteristics of the fractions were examined by acid catalyzed degradation with benzyl mercaptan, (13)C nuclear magnetic resonance spectroscopy, electrospray ionization (ESI), and matrix-assisted laser desorption/ionization time-of-flight mass spectrometry (MALDI-TOF-MS). A wide variation was found in the chemical composition, mean degree of polymerization (mDP), and polydispersity of PAs from Lotus spp. Fractions from L. americanus, L. corniculatus "creeping selection," and L. pedunculatus consisted predominantly of prodelphinidin (PD) units, whereas PA from L. angustissimus and L. corniculatus consisted predominantly of procyanidin (PC) units. An approximately equal composition in terms of PC and PD units was found in L. parviflorus and L. suaveolens. In L. angustissimus, epicatechin is dominant in both extender and terminal units. In all Lotus PA fractions, the 2,3-cis isomers (epicatechin or epigallocatechin) predominated. Only trace amounts of PA were extracted from L. tenuis. The mDP of the PA fractions ranged from 8 to 97, with high mDP found only for L. pedunculatus and L. americanus. In the ESI-MS and MALDI-TOF-MS of the L. angustissimus PA fraction, ions for homo-PC oligomers were dominant, whereas ions for hetero-oligomers predominated in the other Lotus spp. Ions indicative of A-type linkages were observed in the MS of L. americanus. The results are discussed in terms of possible relationships between the concentration and composition of the PAs of Lotus spp. and ecological factors.