NOD promoter-controlled AtIRT1 expression functions synergistically with NAS and FERRITIN genes to increase iron in rice grains

Biofortification: A New Tool to Reduce Micronutrient Malnutrition

(2015) Howarth E. Bouis et al.   FOOD AND NUTRITION BULLETIN

Expression of peanut Iron Regulated Transporter 1 in tobacco and rice plants confers improved iron nutrition

(2014) Hongchun Xiong et al.   PLANT PHYSIOLOGY AND BIOCHEMISTRY

Over-expression of the MxIRT1 gene increases iron and zinc content in rice seeds

(2014) Song Tan et al.   TRANSGENIC RESEARCH

Phenotypic and molecular consequences of overexpression of metal-homeostasis genes

(2014) Danuta M. Antosiewicz et al.   Frontiers in Plant Science

Large scale germplasm screening for identification of novel rice blast resistance sources

(2014) Kumar Vasudevan et al.   Frontiers in Plant Science

Iron transport in plants: better be safe than sorry

(2013) Sébastien Thomine et al.   CURRENT OPINION IN PLANT BIOLOGY

Large-scale production and evaluation of marker-free indica rice IR64 expressing phytoferritin genes

(2013) Norman Oliva et al.   MOLECULAR BREEDING

Iron-biofortification in rice by the introduction of three barley genes participated in mugineic acid biosynthesis with soybean ferritin gene

(2013) Hiroshi Masuda et al.   Frontiers in Plant Science

Global, regional, and national trends in haemoglobin concentration and prevalence of total and severe anaemia in children and pregnant and non-pregnant women for 1995–2011: a systematic analysis of population-representative data

(2013) Gretchen A Stevens et al.   Lancet Global Health

Iron Uptake, Translocation, and Regulation in Higher Plants

(2012) Takanori Kobayashi et al.   Annual Review of Plant Biology

Activation of Rice nicotianamine synthase 2 (OsNAS2) enhances iron availability for biofortification

(2012) Sichul Lee et al.   MOLECULES AND CELLS

Vacuolar membrane transporters OsVIT1 and OsVIT2 modulate iron translocation between flag leaves and seeds in rice

(2012) Yu Zhang et al.   PLANT JOURNAL

Constitutive expression of a barley Fe phytosiderophore transporter increases alkaline soil tolerance and results in iron partitioning between vegetative and storage tissues under stress

(2012) Sonia Gómez-Galera et al.   PLANT PHYSIOLOGY AND BIOCHEMISTRY

OsIRO2 is responsible for iron utilization in rice and improves growth and yield in calcareous soil

(2011) Yuko Ogo et al.   PLANT MOLECULAR BIOLOGY

Constitutive Overexpression of the OsNAS Gene Family Reveals Single-Gene Strategies for Effective Iron- and Zinc-Biofortification of Rice Endosperm

(2011) Alexander A. T. Johnson et al.   PLoS One

Bias in the Cq value observed with hydrolysis probe based quantitative PCR can be corrected with the estimated PCR efficiency value

(2010) Jari Michael Tuomi et al.   METHODS

Rice metal-nicotianamine transporter, OsYSL2, is required for the long-distance transport of iron and manganese

(2010) Yasuhiro Ishimaru et al.   PLANT JOURNAL

Transgenic rice lines that include barley genes have increased tolerance to low iron availability in a calcareous paddy soil

(2010) Motofumi Suzuki et al.   SOIL SCIENCE AND PLANT NUTRITION

Rice endosperm iron biofortification by targeted and synergistic action of nicotianamine synthase and ferritin

(2009) Judith Wirth et al.   PLANT BIOTECHNOLOGY JOURNAL

Over-expression ofOsIRT1leads to increased iron and zinc accumulations in rice

(2009) SICHUL LEE et al.   PLANT CELL AND ENVIRONMENT

Disruption of OsYSL15 Leads to Iron Inefficiency in Rice Plants

(2009) S. Lee et al.   PLANT PHYSIOLOGY

Overexpression of the Barley Nicotianamine Synthase Gene HvNAS1 Increases Iron and Zinc Concentrations in Rice Grains

(2009) Hiroshi Masuda et al.   Rice

Increase in Iron and Zinc Concentrations in Rice Grains Via the Introduction of Barley Genes Involved in Phytosiderophore Synthesis

(2008) Hiroshi Masuda et al.   Rice

Generation and Field Trials of Transgenic Rice Tolerant to Iron Deficiency

(2008) Takanori Kobayashi et al.   Rice