A Natural Low Phytic Acid Finger Millet Accession Significantly Improves Iron Bioavailability in Indian Women

Abstract: Iron deficiency and anemia are common in low- and middle-income countries. This is due to a poor dietary iron density and low iron absorption resulting from the high inhibitory phytic acid content in cereal and millet-based diets. Here, we report that a naturally occurring low phytic acid finger millet accession (571 mg 100 g−1), stable across three growing seasons with normal iron content (3.6 mg 100 g−1), increases iron absorption by 3-folds in normal Indian women. The accessions differing in grain phytic ac… Show more

“…Short-read resequencing of finger millet has also been initiated with the aim of capturing the diversity that exists within germplasm collections and to associate polymorphisms with traits of interest. Reddy et al ( 2022 ) sequenced 19 accessions that varied for grain phytic acid (NCBI BioProject PRJDB10731). Devos et al ( 2023 ) resequenced 35 E.c.…”

Finger millet: a hero in the making to combat food insecurity

“…Short-read resequencing of finger millet has also been initiated with the aim of capturing the diversity that exists within germplasm collections and to associate polymorphisms with traits of interest. Reddy et al ( 2022 ) sequenced 19 accessions that varied for grain phytic acid (NCBI BioProject PRJDB10731). Devos et al ( 2023 ) resequenced 35 E.c.…”

Finger millet: a hero in the making to combat food insecurity

Finger Millet: A Climate‐Resilient and Multi‐Nutrient Crop for the Uncertain Future

Biotechnological approaches to reduce the phytic acid content in millets to improve nutritional quality