Exploitation of natural variability in maize for β - carotene content using HPLC and gene specific markers

• Published in: Electronic journal of plant breeding Vol. 1; no. 4; pp. 548 - 555
• Main Author: Tura Safawo, N. Senthil, M. Raveendran, S. Vellaikumar, K. N. Ganesan, G. Nallathambi, S. Saranya, V. G. Shobhana, B. Abirami and E. Vijaya Gowri
• Format: Journal Article
• Language: English
• Published: Indian Society of Plant Breeders 01.07.2010
• Subjects: beta carotene; Maize; marker; variability
• ISSN: 0975-928X; 0975-928X

Vitamin A deficiency is a major world health problem, affecting up to 127 million pre-school children and 7 millionpregnant women worldwide (West, 2003). Human selection for yellow endosperm has led to diversification of graincarotenoid content and composition. This variation has remained largely untapped in modern breeding programs thathave focused nearly exclusively on yield gains. Maize displays considerable natural variation for carotenoidcomposition, including vitamin A precursors α-carotene, β-carotene, and β -cryptoxanthin. Sixty four maize inbred linesof India were grown and evaluated for whole kernel carotenoids and beta carotene content using high performanceliquid chromatography (HPLC). The lines averaged 14 :g/g for total carotenoids (5.58 to 63.9 :g/g) and 1.69 :g/g for β-carotene (0.122 to 4.74 :g/g). High level of β - carotene was observed in UMI 946, UMI 176, UMI 79, UMI 34 andUMI 12 and these would be used in the breeding programs to enhance the β – carotene contents. Previous study showedfour natural lcyE polymorphisms explained 58% of the variation in these two branches and a threefold difference in provitaminA compounds. In screening for polymorphisms in key haplotypes, four regions were selected and scored acrossthe entire panel of favourable haplotype using SNP and SSR markers. The polymorphs were obtained for all primer usedand the presence of the amplification of for particular marker showed the increase in β - carotene content across theinbreds. Development of LCYE based breeding markers for maize alone will not be effective unless hydroxylation isalso controlled, for non pro vitamin A xanthophylls compounds will predominate. So in our future study, we should beaiming at breeding for high β - carotene in maize by emphasizing on characterization of β - carotene hydroxylase genesfor enhancing the relative levels of seed β - carotene.