MbHY5-MbYSL7 mediates chlorophyll synthesis and iron transport under iron deficiency in Malus baccata

Yaqiang Sun; Jiawei Luo; Peien Feng; Fan Yang; Yunxiao Liu; Jiakai Liang; Hanyu Wang; Yangjun Zou; Fengwang Ma; Tao Zhao

doi:10.3389/fpls.2022.1035233

MbHY5-MbYSL7 mediates chlorophyll synthesis and iron transport under iron deficiency in Malus baccata

Front Plant Sci. 2022 Oct 19:13:1035233. doi: 10.3389/fpls.2022.1035233. eCollection 2022.

Authors

Yaqiang Sun¹, Jiawei Luo¹, Peien Feng¹, Fan Yang¹, Yunxiao Liu¹, Jiakai Liang¹, Hanyu Wang¹, Yangjun Zou¹, Fengwang Ma¹, Tao Zhao¹

Affiliation

¹ State Key Laboratory of Crop Stress Biology for Arid Areas/Shaanxi Key Laboratory of Apple, College of Horticulture, Northwest A&F University, Yangling, China.

Abstract

Iron (Fe) plays an important role in cellular respiration and catalytic reactions of metalloproteins in plants and animals. Plants maintain iron homeostasis through absorption, translocation, storage, and compartmentalization of iron via a cooperative regulative network. Here, we showed different physiological characteristics in the leaves and roots of Malus baccata under Fe sufficiency and Fe deficiency conditions and propose that MbHY5 (elongated hypocotyl 5), an important transcription factor for its function in photomorphogenesis, participated in Fe deficiency response in both the leaves and roots of M. baccata. The gene co-expression network showed that MbHY5 was involved in the regulation of chlorophyll synthesis and Fe transport pathway under Fe-limiting conditions. Specifically, we found that Fe deficiency induced the expression of MbYSL7 in root, which was positively regulated by MbHY5. Overexpressing or silencing MbYSL7 influenced the expression of MbHY5 in M. baccata.

Keywords: Fe transporter; Malus baccata; MbHY5; chlorophyll synthesis; iron deficiency; regulatory network.