Agriculture-to-nutrition: Improving Calcium content of crops through crop genetics to promote bone health

TY - CONF

T1 - Agriculture-to-nutrition: Improving Calcium content of crops through crop genetics to promote bone health

AU - Puranik, Swati

AU - Slavov, Gancho

AU - Ojulong, Henry

AU - Yadav, Rattan

PY - 2016/9/6

Y1 - 2016/9/6

N2 - As world population both grows and ages, morbidity rates due to Calcium (Ca) deficiency disorders, mainly osteoporosis, are increasing tremendously. The World Health Organization proposes osteoporosis as second major global healthcare concern after cardiovascular diseases with treatment costs forecasted to upsurge to $131.5 billion by 2050. Calcium from food sources are more bioavailable and readily absorbed by body than mineral supplements. However, most widely consumed staple crops do not have sufficient concentration of Ca and other micronutrients in their grains. Among all the cereals, finger millet is the richest source of Ca (350mg/100gm edible portions), which is 10-fold higher than brown rice (33mg), wheat (30mg) and maize (26mg). Using chemical phenotyping, we have characterised a diverse collection of finger millet germplasm for Ca and other micronutrients (iron, zinc, magnesium, sodium, potassium), and have generated 156,157 SNPs by using genotype-by sequencing. These data are being analysed using genome-wide association studies to identify genomic regions associated with accumulation of Ca and other micronutrients in finger millet grains. Genetic factors that enable higher Ca accumulation in finger millet will be compared to those of other cereals. These findings will serve as a basis for not only further improving nutritional aspects of finger millet but also other staple crops. Such crops will be a tremendous boost for smallholder farmers, agriculture sectors, and food industries. Availabilities of such crops will help develop Ca-rich functional foods and their consumption will ultimately benefit public health and reduce economic impacts of osteoporosis.

AB - As world population both grows and ages, morbidity rates due to Calcium (Ca) deficiency disorders, mainly osteoporosis, are increasing tremendously. The World Health Organization proposes osteoporosis as second major global healthcare concern after cardiovascular diseases with treatment costs forecasted to upsurge to $131.5 billion by 2050. Calcium from food sources are more bioavailable and readily absorbed by body than mineral supplements. However, most widely consumed staple crops do not have sufficient concentration of Ca and other micronutrients in their grains. Among all the cereals, finger millet is the richest source of Ca (350mg/100gm edible portions), which is 10-fold higher than brown rice (33mg), wheat (30mg) and maize (26mg). Using chemical phenotyping, we have characterised a diverse collection of finger millet germplasm for Ca and other micronutrients (iron, zinc, magnesium, sodium, potassium), and have generated 156,157 SNPs by using genotype-by sequencing. These data are being analysed using genome-wide association studies to identify genomic regions associated with accumulation of Ca and other micronutrients in finger millet grains. Genetic factors that enable higher Ca accumulation in finger millet will be compared to those of other cereals. These findings will serve as a basis for not only further improving nutritional aspects of finger millet but also other staple crops. Such crops will be a tremendous boost for smallholder farmers, agriculture sectors, and food industries. Availabilities of such crops will help develop Ca-rich functional foods and their consumption will ultimately benefit public health and reduce economic impacts of osteoporosis.

KW - Finger millet

KW - Calcium

KW - bone health

KW - genotyping-by sequencing

KW - Genome-wide association

KW - functional food

UR - http://hdl.handle.net/2160/43587

M3 - Abstract

T2 - GARNet 2016

Y2 - 6 September 2016 through 7 September 2016

ER -