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   Location:Home > Research > Research Progress
OsFIT and OsIRO2 interact to regulate Fe homeostasis in rice
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Update time: 2020-04-15
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Iron (Fe) is necessary for plant growth and development because it is involved in many physiological and biochemical reactions. Fe deficiency can cause serious agricultural problems. It is well known that FERLIKE FE DEFICIENCYINDUCED TRANSCRIPTION FACTOR (FIT) is a key regulator of Fe uptake in Arabidopsis. 

In response to Fe deficiency, plants modify the expression of numerous genes to maintain Fe homeostasis. However, the signal transduction network regulating the expression of Fe-homeostasis-associated genes has not been comprehensively characterized. 

In a study published in Journal of Integrative Plant Biology, researchers from Xishuangbannna Tropical Botanical Garden (XTBG) identify the Oryza sativa FIT (also known as OsbHLH156) as the interacting partner of IRONRELATED BHLH TRANSCRIPTION FACTOR 2 (OsIRO2) that is a critical for regulating Fe uptake. 

The researchers not only characterized the biological role of OsFIT and OsIRO2 and their genetic relationship in Fe homeostasis, but also revealed their molecular regulation mechanism. 

To identify the interacting partners of OsIRO2, the researchers used yeast two-hybrid (Y2H) assays and conducted the co-immunoprecipitation assays. They found that OsIRO2 physically interacted with OsFIT. 

They further found that OsFIT promoted the nuclear accumulation of OsIRO2. Loss-of-function of OsFIT impaired tolerance to Fe limitation. Loss-of-function mutations of OsFIT disrupted the expression of Fe homeostasis-associated genes. Overexpression of OsFIT promoted Fe accumulation and expression of Fe-uptake genes. 

Genetic analysis showed that OsFIT and OsIRO2 functioned as a transcription complex. OsFIT expression was positively regulated by OsPRI1, OsPRI2, and OsPRI3. 

Our data suggest that both OsFIT and OsIRO2 are required for the regulation of Fe uptake associated genes, and they function as a transcription complex to regulate Fe homeostasis”, said Dr. LIANG Gang, principal investigator of the study. 

 

Contact 

LIANG Gang Ph.D Principal Investigator 

Key Laboratory of Tropical Plant Resources and Sustainable Use, Xishuangbanna Tropical Botanical Garden, Chinese Academy of Sciences, Menglun 666303, Yunnan, China             

E-mail:  lianggang@xtbg.ac.cn    

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Xishuangbanna Tropical Botanical Garden, Chinese Academy of Sciences. Menglun, Mengla, Yunnan 666303, China
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