Wine Chemistry and Biochemistry

(Steven Felgate) #1

9B Flavanols, Flavonols and Dihydroflavonols 479


OH

R

monophenol

H 2 O

½ O 2

o -quinone

OH
OH

R

o -diphenol

½ O 2 H 2 O

PPO

PPO

O
O

R

OH
OH

R

adducts(o -diphenol)

OH
OH

R

o -diphenol

+

secondary o -quinone

(2)

(1)

(3)

(4)

O.

OH

R

2

(5)

O
OH

R

(6)

2 semiquinones

HO

OH

O

OH

OH

OH

HO

OH

O

OH

OH

OH

HO

OH

O

OH

O
O

O

OH

HO

OH

OH

OH

Fig. 9B.4Enzymatic formation and reactions of quinones


Those involving both flavonol and anthocyanins have been described in Chapter 9A


and will not be detailed here.


9B.3.3.1 Reactions Based on Acid-Catalysed Cleavage of Proanthocyanidins


Precursors


The precursors of these reactions are, on one hand, proanthocyanidins and, on
the other hand, any kind of flavonoid that can act as a nucleophile. The latter


include flavonols, dihydroflavonols, flavanol monomers, proanthocyanidins, and


anthocyanins under their hemiketal form (for anthocyanin reactivity, see


Chapter 9A).


Reaction Mechanism


The reaction starts with acid catalysed cleavage of a proanthocyanidin interfla-


vanic linkage (Figs. 9B.3 and 9B.5(1)). The intermediate carbocation thus gener-


ated then undergoes nucleophilic addition.When the nucleophile is another flavanol


(Fig. 9B.5(2a)), the product is a new proanthocyanidin molecule. As a result of this

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