Evolutionary conserved RLF, a plant cytochrome b5-like heme-binding protein, is essential for organ development in Marchantia polymorpha

Kentaro P. Iwata, Takayuki Shimizu, Yuuki Sakai, Tomoyuki Furuya, Hinatamaru Fukumura, Yuki Kondo, Tatsuru Masuda, Kimitsune Ishizaki, Hidehiro Fukaki
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Abstract

In Arabidopsis thaliana, REDUCED LATERAL ROOT FORMATION (RLF), a cytochrome b5-like heme-binding domain (Cytb5-HBD) protein, is necessary for proper lateral root formation. Whereas the other Cytb5-HBD proteins in A. thaliana regulate different metabolic reactions, RLF is unique as it specifically regulates organ development. However, it remains unknown whether heme binding to RLF is necessary for its function, and whether RLF orthologs in different plant species also regulate organ development. We demonstrate that RLF binds to heme in vitro and that the two histidine residues, which are conserved among Cytb5-HBD, are crucial for both heme binding and its biological function in A. thaliana. In addition, MpRLF, a RLF ortholog in Marchantia polymorpha, rescues the lateral root formation phenotype of the A. thaliana rlf mutant. Mprlfge, the loss-of-function mutation in the MpRLF, resulted in delayed thallus growth and inhibited both gemma cup and antheridiophore formation. Transcriptome analysis using Mprlfge revealed that MpRLF affects several metabolic pathways. Our findings indicate that MpRLF is essential for vegetative and reproductive development in M. polymorpha, suggesting that the RLF-dependent redox reaction systems are evolutionarily conserved as crucial mechanisms for organ development across diverse plant species.
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进化保守的 RLF(一种类似于植物细胞色素 b5 的血红素结合蛋白)对多甲鲍的器官发育至关重要
在拟南芥中,细胞色素 b5 样血红素结合结构域(Cytb5-HBD)蛋白 REDUCED LATERAL ROOT FORMATION(RLF)是正常侧根形成所必需的。虽然连翘中的其他 Cytb5-HBD 蛋白调节不同的代谢反应,但 RLF 是独一无二的,因为它专门调节器官的发育。然而,血红素与 RLF 的结合是否是其功能所必需的,以及不同植物物种中的 RLF 同源物是否也能调控器官发育,这些仍是未知数。我们在体外证明了 RLF 与血红素的结合,并证明了 Cytb5-HBD 中保守的两个组氨酸残基对血红素结合及其在 A. thaliana 中的生物学功能至关重要。此外,MpRLF(Marchantia polymorpha中的RLF直向同源物)能挽救大叶黄杨rlf突变体的侧根形成表型。MpRLF的功能缺失突变体Mprlfge会导致叶柄生长延迟,并抑制宝石杯和花药囊的形成。利用 Mprlfge 进行的转录组分析表明,MpRLF 会影响多个代谢途径。我们的研究结果表明,MpRLF 对多角孢霉(M. polymorpha)的无性和生殖发育至关重要,这表明依赖于 RLF 的氧化还原反应系统作为不同植物物种器官发育的关键机制在进化过程中是保守的。
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