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définition - Anthocyanin

Anthocyanin (n.)

1.(MeSH)A group of FLAVONOIDS derived from FLAVONOLS, which lack the ketone oxygen at the 4-position. They are glycosylated versions of cyanidin, pelargonidin or delphinidin. The conjugated bonds result in blue, red, and purple colors in flowers of plants.;Compounds at the intermediate chemical step between flavonols and anthocyanidins.;The aglycone form of anthocyanins.

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Merriam Webster

AnthocyaninAn`tho*cy"a*nin (�), n. Same as Anthokyan.

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définition (complément)

voir la définition de Wikipedia

synonymes - Anthocyanin


dictionnaire analogique



From Wikipedia, the free encyclopedia

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Anthocyanins are glucosides of anthocyanidins, the basic chemical structure of which is shown here.
Anthocyanins give these pansies their dark purple pigmentation.
Not to be confused with Anthocyanidin, their sugar free counterparts.

Anthocyanins (from Greek: ἀνθός (anthos) = flower + κυανός (kyanos) = blue) are water-soluble vacuolar pigments that may appear red, purple, or blue according to pH. They belong to a parent class of molecules called flavonoids synthesized via the phenylpropanoid pathway; they are odorless and nearly flavorless, contributing to taste as a moderately astringent sensation. Anthocyanins occur in all tissues of higher plants, including leaves, stems, roots, flowers, and fruits. Anthoxanthins are their clear, white to yellow counterparts occurring in plants. Anthocyanins are derivatives of anthocyanidins which include pendant sugars.



Red color in Fuji apples
Anthocyanins provide the purple color of the vertical stripes on stem of this Jalapeño cultivar.

In flowers, bright reds and purples are adaptive for attracting pollinators. In fruits, the colorful skins also attract the attention of animals, which may eat the fruits and disperse the seeds. In photosynthetic tissues (such as leaves and sometimes stems), anthocyanins have been shown to act as a "sunscreen", protecting cells from high-light damage by absorbing blue-green and UV light, thereby protecting the tissues from photoinhibition, or high-light stress. This has been shown to occur in red juvenile leaves, autumn leaves, and broad-leaved evergreen leaves that turn red during the winter. It has also been proposed that red coloration of leaves may camouflage leaves from herbivores blind to red wavelengths, or signal unpalatability, since anthocyanin synthesis often coincides with synthesis of unpalatable phenolic compounds.[1]

In addition to their role as light-attenuators, anthocyanins also act as powerful antioxidants. However, it is not clear whether anthocyanins can significantly contribute to scavenging of free-radicals produced through metabolic processes in leaves, since they are located in the vacuole, and thus, spatially separated from metabolic reactive oxygen species. Some studies have shown that hydrogen peroxide produced in other organelles can be neutralized by vacuolar anthocyanin.


Juvenile anthocyanin in new rose growth. The reddish hue disappears as the new leaves mature.
Food sourceAnthocyanin content
in mg per 100 g
Marion blackberry317[3]
black raspberry589[4]
wild blueberry558[5]
red grape888[6]
red wine24-35
purple corn1,642[7]

Anatomically, anthocyanins are found in the cell vacuole, mostly in flowers and fruits but also in leaves, stems, and roots. In these parts they are found predominantly in outer cell layers such as the epidermis and peripheral mesophyll cells.

Most frequent in nature are the glycosides of cyanidin, delphinidin, malvidin, pelargonidin, peonidin and petunidin. Roughly 2% of all hydrocarbons fixated in photosynthesis are converted into flavonoids and their derivatives such as the anthocyanins. There is no less than 109 tons of anthocyanins produced in nature per year.[citation needed] Not all land plants contain anthocyanin; in the Caryophyllales (including cactus, beets, and amaranth), they are replaced by betalains.

Plants rich in anthocyanins are Vaccinium species, such as blueberry, cranberry and bilberry, Rubus berries including black raspberry, red raspberry and blackberry, blackcurrant, cherry, eggplant peel, black rice, Concord grape and muscadine grape, red cabbage and violet petals. Anthocyanins are less abundant in banana, asparagus, pea, fennel, pear and potato, and may be totally absent in certain cultivars of green gooseberries.[2]

The highest recorded amount appears to be specifically in the seed coat of black soybean (Glycine max L. Merr.) containing some 2,000 mg per 100 g[8] and in skins and pulp of black chokeberry (Aronia melanocarpa L.) (table). However, the Amazonian palmberry, açaí, having about 320 mg per 100 g[9] of which cyanidin-3-glucoside is the most prevalent individual anthocyanin (approximately 10 mg per 100 g),[10] is also a high-content source for which only a small fraction of total anthocyanins has been determined to date.

Nature, primitive agriculture, and plant breeding have produced various uncommon crops containing anthocyanins, including blue- or red-fleshed potatoes and purple or red broccoli, cabbage, cauliflower, carrots and corn. Tomatoes have been bred conventionally for high anthocyanin content by crossing wild relatives with the common tomato to transfer a gene called the anthocyanin fruit tomato ("aft") gene into a larger and more palatable fruit.[11]

Tomatoes have also been genetically modified with transcription factors from snapdragons to produce high levels of anthocyanins in the fruits.[12][13][14] Anthocyanins can also be found in naturally ripened olives,[15][16] and are partly responsible for the red and purple colors of some olives.[15]

Autumn leaf color

A selected purple-leaf cultivar of European Beech

Plants with abnormally high anthocyanin quantities are popular as ornamental plants. Many science textbooks incompletely state that autumn coloration (including red) is the result of breakdown of green chlorophyll, which unmasks the already-present orange, yellow, and red pigments (carotenoids, xanthophylls, and anthocyanins, respectively). While this is indeed the case for the carotenoids and xanthophylls (orange and yellow pigments), anthocyanins are not synthesized until the plant has begun breaking down the chlorophyll, presumably for photoprotection during nitrogen translocation.


Anthocyanidins: Flavylium cation derivatives

See Anthocyanidins article.

Selected anthocyanidins and their substitutions
AnthocyanidinBasic structureR1R2R3R4R5R6R7
Aurantinidin −H−OH−H−OH−OH−OH−OH

Anthocyanins: Glucosides of anthocyanidins

The anthocyanins, anthocyanidins with sugar group(s), are mostly 3-glucosides of the anthocyanidins.The anthocyanins are subdivided into the sugar-free anthocyanidin aglycones and the anthocyanin glycosides. As of 2003 more than 400 anthocyanins had been reported[17] while more recent literature (early 2006), puts the number at more than 550 different anthocyanins. The difference in chemical structure that occurs in response to changes in pH is the reason why anthocyanins are often used as pH indicator, as they change from red in acids to blue in bases.


Anthocyanins are responsible for the distinctive color of blood oranges, although carotenoids also contribute pigmentation in this fruit.
  1. Anthocyanin pigments are assembled like all other flavonoids from two different streams of chemical raw materials in the cell:
  2. These streams meet and are coupled together by the enzyme chalcone synthase (CHS), which forms an intermediate chalcone via a polyketide folding mechanism that is commonly found in plants.
  3. The chalcone is subsequently isomerized by the enzyme chalcone isomerase (CHI) to the prototype pigment naringenin.
  4. Naringenin is subsequently oxidized by enzymes such as flavanone hydroxylase (FHT or F3H), flavonoid 3' hydroxylase and flavonoid 3' 5'-hydroxylase.
  5. These oxidation products are further reduced by the enzyme dihydroflavonol 4-reductase (DFR) to the corresponding colorless[19] leucoanthocyanidins.
  6. It was believed that leucoanthocyanidins are the immediate precursors of the next enzyme, a dioxygenase referred to as anthocyanidin synthase (ANS) or leucoanthocyanidin dioxygenase (LDOX). It was recently shown however that flavan-3-ols, the products of leucoanthocyanidin reductase (LAR), are the true substrates of ANS/LDOX.
  7. The resulting, unstable anthocyanidins are further coupled to sugar molecules by enzymes like UDP-3-O-glucosyl transferase to yield the final relatively stable anthocyanins.

More than five enzymes are thus required to synthesize these pigments, each working in concert. Any even minor disruption in any of the mechanism of these enzymes by either genetic or environmental factors would halt anthocyanin production.

Potential food value

Anthocyanins are considered secondary metabolites as a food additive with E number 163.

Anthocyanins are powerful antioxidants in vitro.[20] This antioxidant property may be conserved even after the plant which produced the anthocyanin is consumed by another organism, possibly explaining why fruits and vegetables with colorful skins and pulp are considered nutritious. Research into the potential range of health benefits from anthocyanins continues.

Dye-sensitized solar cells

Anthocyanins are being used in organic solar cells because of their ability to absorb light and convert it into electrons.[21] There are many benefits to using dye-sensitized solar cells instead of the traditional silicon cells, such as abundance of anthocyanins, the projected 90% efficiency, and the ability to bend or print these inks.[22]


Richly concentrated as pigments in berries, anthocyanins were the topics of research presented at a 2007 symposium on health benefits that may result from berry consumption.[23] Laboratory-based evidence was provided for potential health effects against:

  • cancer
  • aging and neurological diseases
  • inflammation
  • diabetes
  • bacterial infections

Cancer research on anthocyanins is the most advanced, where black raspberry (Rubus occidentalis L.) preparations were first used to inhibit chemically induced cancer of the rat esophagus by 30-60% and of the colon by up to 80%.[23][24] Effective at both the initiation and promotion/progression stages of tumor development, black raspberries are a practical research tool and a promising therapeutic source, as they contain the richest contents of anthocyanins among native North American Rubus berries.[4]

Work on laboratory cancer models has shown that black raspberry anthocyanins inhibit promotion and progression of tumor cells by

  1. stalling growth of pre-malignant cells
  2. accelerating the rate of cell turnover, called apoptosis, effectively making the cancer cells die faster
  3. reducing inflammatory mediators that initiate tumor onset
  4. inhibiting growth of new blood vessels that nourish tumors, a process called angiogenesis
  5. minimizing cancer-induced DNA damage.

On a molecular level, berry anthocyanins were shown to turn off genes involved with proliferation, inflammation and angiogenesis.[25][26][27], while switching on apoptosis [28], [29].

In 2007, black raspberry studies entered the next pivotal level of research – the human clinical trial – for which several approved studies are underway to examine anti-cancer effects of black raspberries and cranberries on tumors in the esophagus, prostate and colon.[30]

Anthocyanins also fluoresce; combined with their antioxidant properties this can be a powerful tool for plant cell research, allowing live cell imaging for extended periods of time without a requirement for other fluorophores [31]

See also


  1. ^ Jack Sullivan (1998). "Anthocyanin" (htm). Carnivorous Plant Newsletter (CPN) September 1998. http://www.carnivorousplants.org/cpn/samples/Science273anthocyanin.htm. Retrieved 2009-10-06. 
  2. ^ a b Wu X, Gu L, Prior RL, McKay S (December 2004). [Expression error: Missing operand for > "Characterization of anthocyanins and proanthocyanidins in some cultivars of Ribes, Aronia, and Sambucus and their antioxidant capacity"]. Journal of Agricultural and Food Chemistry 52 (26): 7846–56. doi:10.1021/jf0486850. PMID 15612766. 
  3. ^ Siriwoharn T, Wrolstad RE, Finn CE, Pereira CB (December 2004). [Expression error: Missing operand for > "Influence of cultivar, maturity, and sampling on blackberry (Rubus L. Hybrids) anthocyanins, polyphenolics, and antioxidant properties"]. Journal of Agricultural and Food Chemistry 52 (26): 8021–30. doi:10.1021/jf048619y. PMID 15612791. 
  4. ^ a b Wada L, Ou B (June 2002). [Expression error: Missing operand for > "Antioxidant activity and phenolic content of Oregon caneberries"]. Journal of Agricultural and Food Chemistry 50 (12): 3495–500. doi:10.1021/jf011405l. PMID 12033817. 
  5. ^ Hosseinian FS, Beta T (December 2007). [Expression error: Missing operand for > "Saskatoon and wild blueberries have higher anthocyanin contents than other Manitoba berries"]. Journal of Agricultural and Food Chemistry 55 (26): 10832–8. doi:10.1021/jf072529m. PMID 18052240. 
  6. ^ Muñoz-Espada AC, Wood KV, Bordelon B, Watkins BA (November 2004). [Expression error: Missing operand for > "Anthocyanin quantification and radical scavenging capacity of Concord, Norton, and Marechal Foch grapes and wines"]. Journal of Agricultural and Food Chemistry 52 (22): 6779–86. doi:10.1021/jf040087y. PMID 15506816. 
  7. ^ Lieberman S (2007). [Expression error: Missing operand for > "The antioxidant power of purple corn: a research review"]. Alternative & Complementary Therapies 13 (2): 107–110. doi:10.1089/act.2007.13210. 
  8. ^ Choung MG, Baek IY, Kang ST, et al. (December 2001). [Expression error: Missing operand for > "Isolation and determination of anthocyanins in seed coats of black soybean (Glycine max (L.) Merr.)"]. J. Agric. Food Chem. 49 (12): 5848–51. doi:10.1021/jf010550w. PMID 11743773. 
  9. ^ Schauss AG, Wu X, Prior RL, et al. (November 2006). [Expression error: Missing operand for > "Phytochemical and nutrient composition of the freeze-dried amazonian palm berry, Euterpe oleraceae mart. (acai)"]. Journal of Agricultural and Food Chemistry 54 (22): 8598–603. doi:10.1021/jf060976g. PMID 17061839. 
  10. ^ Del Pozo-Insfran D, Brenes CH, Talcott ST (March 2004). [Expression error: Missing operand for > "Phytochemical composition and pigment stability of Açai (Euterpe oleracea Mart.)"]. Journal of Agricultural and Food Chemistry 52 (6): 1539–45. doi:10.1021/jf035189n. PMID 15030208. 
  11. ^ Jones CM, Mes P, Myers JR (2003). [Expression error: Missing operand for > "Characterization and inheritance of the Anthocyanin fruit (Aft) tomato"]. The Journal of Heredity 94 (6): 449–56. doi:10.1093/jhered/esg093. PMID 14691311. 
  12. ^ Butelli E, Titta L, Giorgio M, et al. (November 2008). [Expression error: Missing operand for > "Enrichment of tomato fruit with health-promoting anthocyanins by expression of select transcription factors"]. Nature Biotechnology 26 (11): 1301–8. doi:10.1038/nbt.1506. PMID 18953354. 
  13. ^ Purple tomato 'may boost health', Health, BBC News online, 26 October 2008
  14. ^ Purple as a tomato: towards high anthocyanin tomatoes
  15. ^ a b Agati G, Pinelli P, Cortés Ebner S, Romani A, Cartelat A, Cerovic ZG (March 2005). [Expression error: Missing operand for > "Nondestructive evaluation of anthocyanins in olive (Olea europaea) fruits by in situ chlorophyll fluorescence spectroscopy"]. Journal of Agricultural and Food Chemistry 53 (5): 1354–63. doi:10.1021/jf048381d. PMID 15740006. 
  16. ^ Stan Kailis, David Harris. Producing Table Olives. Landlinks Press.[page needed]
  17. ^ Kong JM, Chia LS, Goh NK, Chia TF, Brouillard R (November 2003). [Expression error: Missing operand for > "Analysis and biological activities of anthocyanins"]. Phytochemistry 64 (5): 923–33. doi:10.1016/S0031-9422(03)00438-2. PMID 14561507. 
  18. ^ Jack Sullivan (1998). "Anthocyanin" (htm). Carnivorous Plant Newsletter (CPN) September 1998. http://www.carnivorousplants.org/cpn/samples/Science273anthocyanin.htm. Retrieved 2009-10-06. 
  19. ^ Nakajima J, Tanaka Y, Yamazaki M, Saito K (July 2001). [Expression error: Missing operand for > "Reaction mechanism from leucoanthocyanidin to anthocyanidin 3-glucoside, a key reaction for coloring in anthocyanin biosynthesis"]. The Journal of Biological Chemistry 276 (28): 25797–803. doi:10.1074/jbc.M100744200. PMID 11316805. 
  20. ^ De Rosso VV, Morán Vieyra FE, Mercadante AZ, Borsarelli CD (October 2008). [Expression error: Missing operand for > "Singlet oxygen quenching by anthocyanin's flavylium cations"]. Free Radical Research 42 (10): 885–91. doi:10.1080/10715760802506349. PMID 18985487. 
  21. ^ Cherepy, Nerine J.; Smestad, Greg P.; Grätzel, Michael; Zhang, Jin Z. (1997). "Ultrafast Electron Injection: Implications for a Photoelectrochemical Cell Utilizing an Anthocyanin Dye-Sensitized TiO2 Nanocrystalline Electrode". The Journal of Physical Chemistry B 101 (45): 9342–51. doi:10.1021/jp972197w. http://solideas.com/papers/JPhysChemB.pdf. 
  22. ^ Grätzel, Michael (October 2003). [Expression error: Missing operand for > "Dye-sensitized solar cells"]. Journal of Photochemistry and Photobiology 4 (2): 145–53. doi:10.1016/S1389-5567(03)00026-1. 
  23. ^ a b Journal of Agricultural and Food Chemistry Presents Research from the 2007 International Berry Health Benefits Symposium, Journal of Agricultural and Food Chemistry ACS Publications, February 2008
  24. ^ Stoner GD. Black raspberries show multiple defenses in thwarting cancer, The Ohio State University Research News, undated
  25. ^ Hou DX (March 2003). [Expression error: Missing operand for > "Potential mechanisms of cancer chemoprevention by anthocyanins"]. Current Molecular Medicine 3 (2): 149–59. doi:10.2174/1566524033361555. PMID 12630561. 
  26. ^ Karlsen A, Retterstøl L, Laake P, et al. (August 2007). "Anthocyanins inhibit nuclear factor-kappaB activation in monocytes and reduce plasma concentrations of pro-inflammatory mediators in healthy adults". The Journal of Nutrition 137 (8): 1951–4. PMID 17634269. http://jn.nutrition.org/cgi/pmidlookup?view=long&pmid=17634269. 
  27. ^ Neto CC (June 2007). [Expression error: Missing operand for > "Cranberry and blueberry: evidence for protective effects against cancer and vascular diseases"]. Molecular Nutrition & Food Research 51 (6): 652–64. doi:10.1002/mnfr.200600279. PMID 17533651. 
  28. ^ Neto CC. (January 2007) Cranberry and its phytochemicals: a review of in vitro anticancer studies. J Nutr. 137(1 Suppl):186S-193S., [1]
  29. ^ Thomasset S, Teller N, Cai H, Marko D, Berry DP, Steward WP, Gescher AJ. (June 2009). Do anthocyanins and anthocyanidins, cancer chemopreventive pigments in the diet, merit development as potential drugs? Cancer Chemother Pharmacol;64(1):201-11.PMID: 19294386 [2]
  30. ^ Stoner GD, Wang LS, Zikri N, et al. (October 2007). [Expression error: Missing operand for > "Cancer prevention with freeze-dried berries and berry components"]. Seminars in Cancer Biology 17 (5): 403–10. doi:10.1016/j.semcancer.2007.05.001. PMID 17574861. 
  31. ^ Wiltshire EJ, Collings DA (October 2009). [Expression error: Missing operand for > "New dynamics in an old friend: dynamic tubular vacuoles radiate through the cortical cytoplasm of red onion epidermal cells"]. Plant & Cell Physiology 50 (10): 1826–39. doi:10.1093/pcp/pcp124. PMID 19762337. 
  • Andersen, O.M. Flavonoids: Chemistry, Biochemistry and Applications. CRC Press, Boca Raton FL 2006.
  • Robinson GM, Robinson R (1931). [Expression error: Missing operand for > "A survey of anthocyanins. I"]. The Biochemical Journal 25 (5): 1687–705. PMID 16744735. 

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