<p>(a) (-)-epicatechin (EC; monomer), (b) procyanidin B2 (B2; dimer), (c) procyanidin C1 (C1; trimer), (d) cinnamtannin A2 (A2; tetramer).</p
In order to fully explore the biofunctional potential of proanthocyanidins (PA), isolated and well-c...
Oligomeric procyanidins were isolated from the leaves and flowers of hawthorn (Crataegus laevigata)....
Fig 1: The D2- structures of A: Catechin B: Epicatechin C: Gallic Acid D: Glibenclamide E: kaempf...
<p>Chemical structures of cyaniding-3-glucoside (C3G), epicatehin (EC) and procyanidins (dimer to te...
<p>(A) monomeric polyphenols and (B) oligomeric catechins with B-type (4→8) linkage (procyanidins).<...
The structure of (-)-epicatechin has been determined in the crystalline state. Crystals are orthorho...
The structure of a new procyanidin tetramer, which we call a crown procyanidin tetramer, with an unp...
The structure of a new procyanidin tetramer, which we call a crown procyanidin tetramer, with an unp...
The structure of a new procyanidin tetramer, which we call a crown procyanidin tetramer, with an unp...
<p>Myricetin, one of the most active cranberry flavonols, is characterized by the presence of an uns...
<p>Typical linear condensed tannin with a B-type linkage (A) and an A-type linkage (<i>m/z</i> 871 [...
(A) Chemical structure of the functional groups in catechins, (B) natural epicatechins (top row) and...
Ephedra sinica, an important plant in Chinese traditional medicine, contains a complex mixture of pr...
Proanthocyanidins, which are composed of oligomeric flavan-3-ol units, are contained in various food...
<p>Chemical structures of genkwanin, apigenin, acacetin, wogonin, chrysin, baicalein, luteolin and v...
In order to fully explore the biofunctional potential of proanthocyanidins (PA), isolated and well-c...
Oligomeric procyanidins were isolated from the leaves and flowers of hawthorn (Crataegus laevigata)....
Fig 1: The D2- structures of A: Catechin B: Epicatechin C: Gallic Acid D: Glibenclamide E: kaempf...
<p>Chemical structures of cyaniding-3-glucoside (C3G), epicatehin (EC) and procyanidins (dimer to te...
<p>(A) monomeric polyphenols and (B) oligomeric catechins with B-type (4→8) linkage (procyanidins).<...
The structure of (-)-epicatechin has been determined in the crystalline state. Crystals are orthorho...
The structure of a new procyanidin tetramer, which we call a crown procyanidin tetramer, with an unp...
The structure of a new procyanidin tetramer, which we call a crown procyanidin tetramer, with an unp...
The structure of a new procyanidin tetramer, which we call a crown procyanidin tetramer, with an unp...
<p>Myricetin, one of the most active cranberry flavonols, is characterized by the presence of an uns...
<p>Typical linear condensed tannin with a B-type linkage (A) and an A-type linkage (<i>m/z</i> 871 [...
(A) Chemical structure of the functional groups in catechins, (B) natural epicatechins (top row) and...
Ephedra sinica, an important plant in Chinese traditional medicine, contains a complex mixture of pr...
Proanthocyanidins, which are composed of oligomeric flavan-3-ol units, are contained in various food...
<p>Chemical structures of genkwanin, apigenin, acacetin, wogonin, chrysin, baicalein, luteolin and v...
In order to fully explore the biofunctional potential of proanthocyanidins (PA), isolated and well-c...
Oligomeric procyanidins were isolated from the leaves and flowers of hawthorn (Crataegus laevigata)....
Fig 1: The D2- structures of A: Catechin B: Epicatechin C: Gallic Acid D: Glibenclamide E: kaempf...
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