TY - JOUR
T1 - Empowering agriculture
T2 - The promise of zinc biofortification in rice
AU - Zubair, Akmal
AU - Jamal, Adil
AU - Kallel, Mohamed
AU - He, Shan
PY - 2024/11
Y1 - 2024/11
N2 - Zinc (Zn) plays a crucial role in metabolism in both plant and animal life. Zn deficiency is a worldwide problem that has recently gotten worse. This micronutrient shortage can be largely attributed to eating foods that are poor in zinc. If biofortification methods were widely used, Zn enrichment of the organ or tissue of interest would increase dramatically. However, Zn absorption mechanisms in rice plants must be understood on a fundamental level before these methods can be used effectively. Plant systems' Zn transporters and metal chelators play a major role in regulating this intricate physiological characteristic. The Zn efficiency of specific species is affected by a variety of factors, including the plant's growth stage, edaphic conditions, the time of year, and more. Both old and new ways of breeding plants can be used for biofortification. We have highlighted the significance of recombinant and genetic approaches to biofortifying in rice. In this review, we have the metabolic role of zinc in rice, and the different transporter families involved in the transportation of zinc in rice. We have also discussed the combined approaches of agronomic and genetic in zinc biofortification in rice and potential outcomes and future predictions.
AB - Zinc (Zn) plays a crucial role in metabolism in both plant and animal life. Zn deficiency is a worldwide problem that has recently gotten worse. This micronutrient shortage can be largely attributed to eating foods that are poor in zinc. If biofortification methods were widely used, Zn enrichment of the organ or tissue of interest would increase dramatically. However, Zn absorption mechanisms in rice plants must be understood on a fundamental level before these methods can be used effectively. Plant systems' Zn transporters and metal chelators play a major role in regulating this intricate physiological characteristic. The Zn efficiency of specific species is affected by a variety of factors, including the plant's growth stage, edaphic conditions, the time of year, and more. Both old and new ways of breeding plants can be used for biofortification. We have highlighted the significance of recombinant and genetic approaches to biofortifying in rice. In this review, we have the metabolic role of zinc in rice, and the different transporter families involved in the transportation of zinc in rice. We have also discussed the combined approaches of agronomic and genetic in zinc biofortification in rice and potential outcomes and future predictions.
KW - Conventional breeding
KW - Genome editing
KW - Micronutrients
KW - Transgenic breeding
KW - ZIP transporters
KW - Zn absorption Zn biofortification Zn
UR - http://www.scopus.com/inward/record.url?scp=85203410845&partnerID=8YFLogxK
U2 - 10.1016/j.plaphy.2024.109085
DO - 10.1016/j.plaphy.2024.109085
M3 - Review article
AN - SCOPUS:85203410845
SN - 0981-9428
VL - 216
SP - 1
EP - 12
JO - Plant Physiology and Biochemistry
JF - Plant Physiology and Biochemistry
M1 - 109085
ER -