Purple corn

Purple Corn

Purple corn (Spanish: maíz morado) or purple maize is another name for Blue corn, a variety of flint maize (Zea mays indurata) originating from Mesoamerica.

Uses

The kernels of purple corn are soaked in hot water by people of the Andes to yield a deep purple color for foods and beverages, a practice now recognized for its industrial uses as a colorant. Common in Bolivia, Ecuador and Peru, purple corn is used in chicha morada, a drink made by boiling ground purple corn kernels with pineapple, cinnamon, clove, and sugar, and in mazamorra, a type of pudding. One of the most popular purple corn food uses is the "Api", a smoothie served hot and sometimes called "Inca's dessert".[1]

Color chemistry: anthocyanins

The pigment giving purple corn its vivid color derives from an exceptional content of a class of polyphenols called anthocyanins. Cyanidin 3-O-glucoside, also called chrysanthemin, is the major anthocyanin in purple corn kernels, comprising about 73% of all anthocyanins present.[2][3][4] Other anthocyanins identified are pelargonidin 3-O-β-D-glucoside, peonidin 3-O-β-D-glucoside, cyanidin 3-O-β-D-(6-malonyl-glucoside), pelargonidin 3-O-β-D-(6-malonyl-glucoside) and peonidin 3-O-β-D-(6-malonyl-glucoside).[2][3][4] Similar results for anthocyanin content were found from a variety of purple corn grown in China.[5]

Evaluating growing conditions for anthocyanin and total polyphenol content, one research group found that field location was an important determinant, whereas seedling density and soil potassium content were not.[6]

For ease of extractions, scientists have explored components of the purple corn plant for yield, such as kernels, cob and husk, possibly allowing use of a plentiful, non-edible residual biomass in cobs or husks. Husks of the purple corn plant contain about ten times higher content of anthocyanins than do kernels.[4]

Potential health benefits

Besides its use as food and dye, purple corn is under basic research for its anthocyanins possibly providing health benefits, such as in diabetic neuropathy.[7]

References

  1. "De Arequipa a Mistura: Api, una mazamorra bebible hecha con maíz morado". El Comercio Peru. Retrieved 21 Feb 2013.
  2. 1 2 Aoki H, Kuze N, Kato Y (n.d.). "Anthocyanins isolated from purple corn (Zea mays L.)" (PDF). unidentified manuscript. Retrieved 19 June 2014.
  3. 1 2 Cuevas Montilla, E; Hillebrand, S; Antezana, A; Winterhalter, P (2011). "Soluble and bound phenolic compounds in different Bolivian purple corn ( Zea mays L.) cultivars". Journal of Agricultural and Food Chemistry. 59 (13): 7068–74. doi:10.1021/jf201061x. PMID 21639140.
  4. 1 2 3 Li, C. Y.; Kim, H. W.; Won, S. R.; et al. (2008). "Corn husk as a potential source of anthocyanins". Journal of Agricultural and Food Chemistry. 56 (23): 11413–6. doi:10.1021/jf802201c. PMID 19007127.
  5. Zhao, X; Corrales, M; Zhang, C; Hu, X; Ma, Y; Tauscher, B (2008). "Composition and thermal stability of anthocyanins from chinese purple corn ( Zea mays L.)". Journal of Agricultural and Food Chemistry. 56 (22): 10761–6. doi:10.1021/jf8025056. PMID 18950186.
  6. Jing, P; Noriega, V; Schwartz, S. J.; Giusti, M. M. (2007). "Effects of growing conditions on purple corncob (Zea mays L.) anthocyanins". Journal of Agricultural and Food Chemistry. 55 (21): 8625–9. doi:10.1021/jf070755q. PMID 17880157.
  7. Kang, M. K.; Lim, S. S.; Lee, J. Y.; Yeo, K. M.; Kang, Y. H. (2013). "Anthocyanin-rich purple corn extract inhibit diabetes-associated glomerular angiogenesis". PLoS ONE. 8 (11): e79823. doi:10.1371/journal.pone.0079823. PMC 3835931Freely accessible. PMID 24278186.
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