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Carotenoid contents during ripening of banana hybrids and cultivars grown in Cameroon

Published online by Cambridge University Press:  02 September 2009

Gérard Ngoh Newilah
Affiliation:
Cent. Afr. Rech. Banan. Plantains, Njombé, BP 832, Douala, Cameroon
Claudie Dhuique-Mayer
Affiliation:
UMR 95, Integr. Food Process. Res. Unit, CIRAD, Persyst, TA B-95 / 16, 34398 Montpellier Cedex 5, France
Juan Rojas-Gonzalez
Affiliation:
UMR 95, Integr. Food Process. Res. Unit, CIRAD, Persyst, TA B-95 / 16, 34398 Montpellier Cedex 5, France
Kodjo Tomekpe
Affiliation:
Cent. Afr. Rech. Banan. Plantains, Njombé, BP 832, Douala, Cameroon
Elie Fokou
Affiliation:
Dep. Biochem., Univ. Yaoundé I, BP 812, Yaoundé, Cameroon
François X. Etoa
Affiliation:
Dep. Biochem., Univ. Yaoundé I, BP 812, Yaoundé, Cameroon
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Abstract

Introduction. Bananas and plantains (Musa spp.) are staple foods in Cameroon and surrounding countries. Strategies based on the utilization of cultural and locally consumed foods are essential for the identification of solutions for the reduction of micronutrient malnutrition. Materials and methods. To assess the nutritional content of some varieties in order to assist the selection of new Musa hybrids, the carotenoid contents of 19 Musa cultivars and hybrids from the CARBAP (Douala, Cameroon) germplasm were determined at three ripening stages. Frozen pulps were analyzed for their β-carotene, α-carotene and lutein contents using the HPLC method. The retinol activity equivalents (RAE)·100 g–1 fresh weight were calculated for four representative Musa types. Results and discussion. Significant differences were observed between Musa cultivars according to their genotype. Plantain type (Mbouroukou n°1) and Musa hybrid (CRBP 755) exhibited the highest levels of RAE [(148 and 70) RAE·100 g–1] compared with dessert bananas (16 RAE·100 g–1). During ripening, the concentrations of these carotenoids increased or decreased significantly (α = 0.05%) according to the Musa type analyzed. The high β- and α-carotene as well as lutein contents of these Musa sp. could contribute to the nutritional status of people consuming these banana varieties in West and Central Africa and enhance their use in Musa breeding programs.

Type
Research Article
Copyright
© CIRAD, EDP Sciences, 2009

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References

Britton G., Liaanen-Jensen S., Pfander H., Carotenoids: Spectroscopy 1B. Basel, Switzerland, 1995.
Palace, V.P., Khaper, N., Qin, Q., Singal, P., Antioxidant potentials of vitamin A and carotenoids and their relevance to heart disease, Free Radic. Biol. Med. 26 (1999) 746761. CrossRef
Rock, C., Carotenoids: biology and treatment, Pharmacol. Ther. 75 (1997) 185197. CrossRef
Rodriguez-Amaya D.B., Carotenoïds and food preparation: the retention of provitamin A carotenoïds in prepared, processed and stored foods, OMNI/USAID, Washington DC, USA, 1997, 88 p.
Astrog, P., Food carotenoids and cancer prevention: An overview of current research, Tends Food Sci. Technol. 81 (1997) 406413. CrossRef
Bendich, A., Recent advances in clinical research involving carotenoids, Pure Appl. Chem. 66 (1994) 10171024. CrossRef
Burri, B.J., Beta-carotene and human health: A review of current research, Nutr. Res. 17 (1997) 547580. CrossRef
Krinsky, N.I., Actions of carotenoïds in biological systems, Annu. Rev. Nutr. 13 (1993) 561587. CrossRef
Mayne, S.T., Beta-carotene, carotenoids, and disease prevention in humans, FASEB J. 10 (1996) 690701.
Olson J.A., Carotenoids, in: Shils M.E., Olson J.A., Shike M., Ross A.C. (Eds.), Modern nutrition in health and disease, 9th ed., Willians & Wilkins, Baltimore, USA, 1999.
Olson, J.A., Krinsky, N.I., The colourful, fascinating world of the carotenoids: Important physiologic modulators, FASEB J. 9 (1995) 15471550.
McLaren D., Frigg M., Voir et vivre. Guide pratique sur la vitamine A dans la santé et la maladie, 2e éd., Groupe trav. Voir et Vivre, Bâle, Suisse, 2002.
Nève J., Antioxidants alimentaires : vitamines, oligoéléments et non-nutriments, in: Roberfroid M., Aliments fonctionnels, Lavoisier (Eds.), Coll. Sci. Techn. Agroaliment., Cachan, France, 2002.
Rodriguez-Amaya D.B., A guide to carotenoid analysis in foods, 1st ed., OMNI Res., USA, 2001, 64 p.
Aguayo, V.M., Baker, S.K., Vitamin, A deficiency and child survival in sub-Saharan Africa: A reappraisal of challenges and opportunities, Food Nutr. Bull. 26 (4) (2005) 348355. CrossRef
Anon., The state of the world’s children 2005. Childhood under threat, United Nations Children’s Fund (UNICEF), New York, USA, 2005.
Ngoh Newilah, G., Tchango Tchango, J., Fokou, E., Dury, S., Etoa, F.X., Processing and food uses of bananas and plantains in Cameroon, Fruits 60 (4) (2005) 245253. CrossRef
Dadzie B.K., Orchard J.E., Routine postharvest screening of banana and plantain hybrids: criteria and methods, INIBAP, Techn. Guidel. 2, Montpellier, France, 1997, 63 p.
Burdon, J.N., Moore, K.G., Wainwright, H., The post harvest ripening of three plantain cultivars (Musa spp., AAB group), Fruits 46 (1991) 137143.
Ngalani, J.A., Tchango Tchango, J., Ndoumbe Nkeng, M., Noupadja, P., Tomekpe, K., Physicochemical changes during ripening in some plantain cultivars grown in Cameroon, Trop. Sci. 38 (1998) 4247.
Kimura, M., Rodriguez-Amaya, D.B., A scheme for obtaining standards and HPLC quantification of leafy vegetable carotenoids, Food Chem. 78 (2002) 389398. CrossRef
Dhuique-Mayer, C., Caris-Veyrat, C., Ollitrault, P., Curk, F., Amiot, M.J., Varietal and interspecific influence on micronutrient contents in citrus from the Mediterranean area, J. Agric. Food Chem. 53 (2005) 21402145. CrossRef
Anon., SAS User’s Guide: Statistics, Release 8.2, SAS Institute Inc., Cary, NC, USA, 2001.
Englberger, L., Aalbersberg, W., Ravi, P., Bonnin, E., Marks, G.C., Fitzgerald, M.H., Elymore, J., Further analyses on Micronesian banana, taro, breadfruit and other foods for provitamin A carotenoids and minerals, J. Food Compos. Anal. 16 (2003) 219236. CrossRef
Lusty, C., Akyeampong, E., Davey, M.W., Ngoh Newilah, G., Markham, R., A staple food with nutritious appeal, Infomusa 15 (1–2) (2006) 3943.
Holden, J.M., Eldridge, A.L., Beecher, G.R., Buzzard, I.M., Bhagwat, S., Davis, C.S., Douglas, L.W., Gebhardt, S., Haytowitz, D., Schakel, S., Carotenoid content of US foods: An update of the database, J. Food Compos. Anal. 12 (1999) 169196. CrossRef
Holland B., Welch A.A., Unwin I.D., Buss D.H., Paul A.A., Southgate D.A.T., The composition of foods, McCance, Widdowson (Eds.), R. Soc. Chem. Minist. Agric. Fish. Food, Cambridge, UK, 1991.
Alves, R.E., Chitarra, A.B., Chitarra, M.I.F., Post harvest physiology of acerola (Malpighia emarginata D. C.) fruits: Maturation changes, respiratory activity and refrigerated storage at ambient and modified atmospheres, Acta Hortic. 370 (1995) 223229. CrossRef
Wall, M.M., Ascorbic acid, vitamin A, and mineral composition of banana (Musa sp.) and papaya (Carica papaya) cultivars grown in Hawaii, J. Food Compos. Anal. 19 (2006) 434445. CrossRef
Brat P., Olle D., Reynes M., Brillouet J.M., The carotenoids of tropical and Mediterranean fruits and their products, in: Nakano T., Ozimek L. (Eds.), Food science and product technology, Res. Signopost, Kerala, India, 2002, pp. 187–198.
De Pee, S., West, C.E., Permaesih, D., Martuti, S., Muhilal, Hautvast G.A.J.J., Orange fruit is more effective than are dark-green, leafy vegetables in increasing serum concentrations of retinol and b-carotene in schoolchildren in Indonesia, Am. J. Clin. Nutr. 68 (1998) 10581067.
Niizu, P.Y., Rodriguez-Amaya, D.B., New data on the carotenoid composition of raw salad vegetables, J. Food Compos. Anal. 18 (2005) 739749. CrossRef
Lee, J.J., Crosby, K.M., Pike, L.M., Yoo, K.S., Leskovar, D.I., Impact of genetic and environmental variation on development of flavonoids and carotenoids in pepper (Capsicum spp.), Scientia Hortic. 106 (2005) 341352. CrossRef
Gross J., Pigments in fruits, Acad. Press, London, UK, 1987.
Lima, V.L.A.G., Mélo, E.A., Maciel, M.I.S., Prazeres, F.G., Musser, R.S., Lima, D.E.S., Total phenolic and carotenoid contents in acerola genotypes harvested at three ripening stages, Food Chem. 90 (2005) 565568. CrossRef
Englberger, L., Wills, R.B.H., Dufficy, L., Blades, B., Daniells, J.W., Coyne, T., Carotenoid content and flesh color of selected banana cultivars growing in Australia, Food Nutr. Bull. 27 (2006) 281291. CrossRef
Dury, S., Bricas, N., Tchango Tchango, J., Temple, L., Bikoi, A., The determinants of urban plantain consumption in Cameroon, Food Qual. Prefer. 32 (3) (2002) 8182. CrossRef