The structure of anthocyanins and the copigmentation by common micromolecular copigments: A review.

[Display omitted] • The Copigmentation is more likely to occur between planar molecules. • Non-planar anthocyanin molecules generate the UV characteristic absorption peak. • The copigmentation caused by a subtle combination of non-covalent interactions. • It is more economical to prepare non-covalent co-pigmented complexes of anthocyanins. Under natural physiological conditions, anthocyanins can keep bright and stable color for a long time due to the relatively stable acid-base environment of plant vacuoles and the copigmentation from various copigment substances, such as polyphenols, nucleotides, metallic ions and other substances. Therefore, the copigmentation caused by copigments is considered an effective way to stabilize anthocyanins against adverse environmental conditions. This is attributed to the covalent and noncovalent interactions between colored forms of anthocyanins (flavylium ions and quinoidal bases) and colorless or pale yellow organic molecules (copigments). These interactions are usually manifested in both hyperchromic effect and bathochromic shifts. In addition to making anthocyanins more stable, the copigmentation also could make an important contribution to the diversification of their tone. Based on the molecular structure of anthocyanins, this review focuses on the interaction mode of auxochrome groups or copigments with anthocyanins and their effects on the chemical and color stability of anthocyanins. [ABSTRACT FROM AUTHOR]