- Information
- Symbol: MIT
- MSU: LOC_Os03g18550
- RAPdb: Os03g0296800
- PSP score
- LOC_Os03g18550.2: 0.0211
- LOC_Os03g18550.1: 0.0261
- PLAAC score
- LOC_Os03g18550.2: 0
- LOC_Os03g18550.1: 0
- pLDDT score
- 80.49
- Protein Structure from AlphaFold and UniProt
- Publication
- The knockdown of OsVIT2 and MIT affects iron localization in rice seed, 2013, Rice (N Y).
- The rice mitochondrial iron transporter is essential for plant growth, 2011, Nat Commun.
- Identification and characterization of the major mitochondrial Fe transporter in rice, 2011, Plant Signal Behav.
- Knocking down mitochondrial iron transporter MIT reprograms primary and secondary metabolism in rice plants., 2015, J Exp Bot.
- Genbank accession number
- Key message
- In plants, iron (Fe) is essential for mitochondrial electron transport, heme, and Fe-Sulphur (Fe-S) cluster synthesis; however, plant mitochondrial Fe transporters have not been identified
- Here we show, identify and characterize the rice mitochondrial Fe transporter (MIT)
- These results indicate that MIT is a mitochondrial Fe transporter essential for rice growth and development
- The rice mitochondrial iron transporter is essential for plant growth
- The screening of 3,993 mutant lines for symptoms of Fe deficiency resulted in the identification and characterization of a major mitochondrial Fe transporter (MIT) in rice
- Identification and characterization of the major mitochondrial Fe transporter in rice
- Here, we discuss the characterization of a rice vacuolar Fe transporter 2 (OsVIT2) T-DNA insertion line (osvit2) and report that the knockdown of OsVIT2 and mitochondrial Fe transporter (MIT) expression affects seed Fe localization
- MIT localized to the mitochondria and complemented the growth of Deltamrs3Deltamrs4 yeast defective in mitochondrial Fe transport
- The growth of MIT-knockdown (mit-2) plants was also significantly impaired despite abundant Fe accumulation
- MIT was found to localize to mitochondria and to complement the growth of a yeast strain defective in mitochondrial Fe transport
- Further, the decrease in the activity of the mitochondrial and cytosolic Fe-S enzyme, aconitase, indicated that Fe-S cluster synthesis is affected in mit-2 plants
- The knock-out of MIT resulted in a lethal phenotype, and in knock-down plants, several agronomic characteristics were compromised, such as plant height, average number of tillers, days to flower, fertility, and yield
- The knockdown of OsVIT2 and MIT affects iron localization in rice seed
- Previously, we reported that the expression of OsVIT2 was higher in MIT knockdown (mit-2) plants, and in this study, the accumulation of Fe in mit-2 seeds decreased significantly
- Moreover, changes in the expression of OsVIT2 and MIT affect the concentration and localization of metals in brown rice as well as in polished rice seeds
- Despite rapid progress in our understanding of Fe homeostasis in plants, Fe transport from the cytoplasm to mitochondria was, until recently, poorly understood
- Furthermore, the mitochondrial Fe concentration and the activity of the mitochondrial Fe-S enzyme aconitase were significantly reduced compared with wild-type plants
- Connection
- MIT, OsVIT2, The knockdown of OsVIT2 and MIT affects iron localization in rice seed, Here, we discuss the characterization of a rice vacuolar Fe transporter 2 (OsVIT2) T-DNA insertion line (osvit2) and report that the knockdown of OsVIT2 and mitochondrial Fe transporter (MIT) expression affects seed Fe localization
- MIT, OsVIT2, The knockdown of OsVIT2 and MIT affects iron localization in rice seed, Previously, we reported that the expression of OsVIT2 was higher in MIT knockdown (mit-2) plants, and in this study, the accumulation of Fe in mit-2 seeds decreased significantly
- MIT, OsVIT2, The knockdown of OsVIT2 and MIT affects iron localization in rice seed, Moreover, changes in the expression of OsVIT2 and MIT affect the concentration and localization of metals in brown rice as well as in polished rice seeds
- MIT, OsVIT2, The knockdown of OsVIT2 and MIT affects iron localization in rice seed, The knockdown of OsVIT2 and MIT affects iron localization in rice seed
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