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保守的顺式元件使 NODULES WITH ACTIVATED DEFENSE1 在结瘤过程中受 NODULE INCEPTION 调控。

Conserved cis-elements enable NODULES WITH ACTIVATED DEFENSE1 regulation by NODULE INCEPTION during nodulation.

机构信息

National Key Laboratory of Agricultural Microbiology, Hubei Hongshan Laboratory, College of Life Science and Technology, Huazhong Agricultural University, Wuhan, Hubei 430070, China.

Yazhouwan National Laboratory, Sanya, Hainan 572024, China.

出版信息

Plant Cell. 2024 Oct 3;36(10):4622-4636. doi: 10.1093/plcell/koae229.

DOI:10.1093/plcell/koae229
PMID:39136552
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC11448908/
Abstract

Symbiotic nitrogen fixation within nitrogen-fixing clade (NFC) plants is thought to have arisen from a single gain followed by massive losses in the genomes of ancestral non-nodulating plants. However, molecular evidence supporting this model is limited. Here, we confirm through bioinformatic analysis that NODULES WITH ACTIVATED DEFENSE1 (NAD1) is present only in NFC plants and is thus an NFC-specific gene. Moreover, NAD1 was specifically expressed in nodules. We identified three conserved nodulation-associated cis-regulatory elements (NACE1-3) in the promoter of LjNAD1 from Lotus japonicus that are required for its nodule specific expression. A survey of NFC plants revealed that NACE1 and NACE2 are specific to the Fabales and Papilionoideae, respectively, while NACE3 is present in all NFC plants. Moreover, we found that nodule inception (NIN) directly binds to all three NACEs to activate NAD1 expression. Mutation of L. japonicus LjNAD1 resulted in the formation of abnormal symbiosomes with enlarged symbiosome space and frequent breakdown of bacteroids in nodules, resembling phenotypes reported for Medicago truncatula Mtnad1 and Mtnin mutants. These data point to NIN-NAD1 as an important module regulating rhizobial accommodation in nodules. The regulation of NAD1 by NIN in the NFC ancestor represent an important evolutionary adaptation for nodulation.

摘要

共生固氮在固氮类群(NFC)植物中被认为是由单个基因获得,随后在祖先非结瘤植物的基因组中发生大量丢失而产生的。然而,支持这一模型的分子证据是有限的。在这里,我们通过生物信息学分析证实,结瘤相关防御蛋白 1(NAD1)仅存在于 NFC 植物中,因此是 NFC 植物特有的基因。此外,NAD1 特异性地在根瘤中表达。我们从豌豆中鉴定出 LjNAD1 启动子中的三个保守的结瘤相关顺式调控元件(NACE1-3),它们是其在根瘤中特异性表达所必需的。对 NFC 植物的调查显示,NACE1 和 NACE2 分别特异性地存在于豆科和蝶形花科,而 NACE3 存在于所有 NFC 植物中。此外,我们发现,根瘤起始(NIN)直接结合所有三个 NACE 以激活 NAD1 的表达。豌豆 LjNAD1 的突变导致异常共生体的形成,共生体空间增大,根瘤中的类菌体经常破裂,类似于 Medicago truncatula Mtnad1 和 Mtnin 突变体报告的表型。这些数据表明,NIN-NAD1 是调节根瘤中根瘤菌容纳的一个重要模块。NIN 在 NFC 祖先中的 NAD1 调控代表了对结瘤的一个重要的进化适应。

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