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A shared gene drives lateral root development and root nodule symbiosis pathways in Lotus
Legumes develop root nodules in symbiosis with nitrogen-fixing rhizobial bacteria. Rhizobia evoke cell division of differentiated cortical cells into root nodule primordia for accommodating bacterial symbionts. In this study, we show that NODULE INCEPTION (NIN), a transcription factor in Lotus japonicus that is essential for initiating cortical cell divisions during nodulation, regulates the gene ASYMMETRIC LEAVES 2-LIKE 18/LATERAL ORGAN BOUNDARIES DOMAIN 16a (ASL18/LBD16a). Orthologs of ASL18/LBD16a in nonlegume plants are required for lateral root development. Coexpression of ASL18a and the CCAAT box–binding protein Nuclear Factor-Y (NF-Y) subunits, which are also directly targeted by NIN, partially suppressed the nodulation-defective phenotype of L. japonicus daphne mutants, in which cortical expression of NIN was attenuated. Our results demonstrate that ASL18a and NF-Y together regulate nodule organogenesis. Thus, a lateral root developmental pathway is incorporated downstream of NIN to drive nodule symbiosis.
Journal Article
Lotus 98T - includes all Lotus-Renault F1 cars, 1983 to 1986 (93T, 94T, 95T, 97T & 98T) : owners' workshop manual
This manual, extensively illustrated with both period photographs and technical illustrations and photographs of a recently restored car, provides a fascinating insight into the design, evolution, operation, maintenance and restoration of the Lotus 98T and its Renault-turbo-powered predecessors.
Book
Receptor-mediated chitin perception in legume roots is functionally separable from Nod factor perception
The ability of root cells to distinguish mutualistic microbes from pathogens is crucial for plants that allow symbiotic microorganisms to infect and colonize their internal root tissues. Here we show that Lotus japonicus and Medicago truncatula possess very similar LysM pattern-recognition receptors, LjLYS6/MtLYK9 and MtLYR4, enabling root cells to separate the perception of chitin oligomeric microbe-associated molecular patterns from the perception of lipochitin oligosaccharide by the LjNFR1/MtLYK3 and LjNFR5/MtNFP receptors triggering symbiosis. Inactivation of chitin-receptor genes in Ljlys6, Mtlyk9, and Mtlyr4 mutants eliminates early reactive oxygen species responses and induction of defense-response genes in roots. Ljlys6, Mtlyk9, and Mtlyr4 mutants were also more susceptible to fungal and bacterial pathogens, while infection and colonization by rhizobia and arbuscular mycorrhizal fungi was maintained. Biochemical binding studies with purified LjLYS6 ectodomains further showed that at least six GlcNAc moieties (CO6) are required for optimal binding efficiency. The 2.3-Å crystal structure of the LjLYS6 ectodomain reveals three LysM βααβ motifs similar to other LysM proteins and a conserved chitin-binding site. These results show that distinct receptor sets in legume roots respond to chitin and lipochitin oligosaccharides found in the heterogeneous mixture of chitinaceous compounds originating from soil microbes. This establishes a foundation for genetic and biochemical dissection of the perception and the downstream responses separating defense from symbiosis in the roots of the 80–90% of land plants able to develop rhizobial and/or mycorrhizal endosymbiosis.
Journal Article
A LjBAK1-associated E3 ubiquitin ligase, LjPUB7, negatively regulates early symbiosis by targeting NFRs
Nod factor receptors (NFRs) are essential for initiating symbiotic signaling in legumes, mediating rhizobial infection and nodule development. Tight regulation of NFR levels is crucial to prevent inappropriate immune responses and maintain cellular homeostasis. Co-expression of LjNFR1 and LjNFR5 triggers cell death in
Nicotiana benthamiana
, which is specifically inhibited by LjBAK1-mediated ubiquitination and subsequent degradation, suggesting the existence of a LjBAK1-E3 ligase complex for NFR protein turnover. Further analysis identified LjPUB7, a plant U-box E3 ubiquitin ligase in
Lotus japonicus
, as a regulator of early symbiotic interactions. LjPUB7 interacts with both LjBAK1 and NFRs, and directly ubiquitinates NFRs. Loss-of-function
Ljpub7
mutants display increased infection thread formation, enhanced nodule development, and elevated expression of early nodulation genes. These findings reveal that LjPUB7 negatively regulates early rhizobial infection by targeting NFR1 and NFR5 for ubiquitination and degradation, thereby providing insights into the fine-tuned control of symbiotic signaling in legumes.
Journal Article
Lotus japonicus Nuclear Factor YA1, a nodule emergence stage‐specific regulator of auxin signalling
Summary
Organogenesis of legume root nodules begins with the nodulation factor‐dependent stimulation of compatible root cells to initiate divisions, signifying an early nodule primordium formation event. This is followed by cellular differentiation, including cell expansion and vascular bundle formation, and we previously showed that Lotus japonicus NF‐YA1 is essential for this process, presumably by regulating three members of the SHORT INTERNODES/STYLISH (STY) transcription factor gene family.
In this study, we used combined genetics, genomics and cell biology approaches to characterize the role of STY genes during root nodule formation and to test a hypothesis that they mediate nodule development by stimulating auxin signalling.
We show here that L. japonicus STYs are required for nodule emergence. This is attributed to the NF‐YA1‐dependent regulatory cascade, comprising STY genes and their downstream targets, YUCCA1 and YUCCA11, involved in a local auxin biosynthesis at the post‐initial cell division stage. An analogous NF‐YA1/STY regulatory module seems to operate in Medicago truncatula in association with the indeterminate nodule patterning.
Our data define L. japonicus and M. truncatula NF‐YA1 genes as important nodule emergence stage‐specific regulators of auxin signalling while indicating that the inductive stage and subsequent formation of early nodule primordia are mediated through an independent mechanism(s).
Journal Article
The secret of the snow
Thea Stilton and her sisters journey to the land of Minwa, a realm linked to the legends of Japan and wrapped in mysteries and enchantments, to discover why the realm's special lotus flowers are disappearing--and why their diappearance seems to be threatening the whole land.
BOOK
NUCLEOPORIN85 Is Required for Calcium Spiking, Fungal and Bacterial Symbioses, and Seed Production in Lotus japonicus
In Lotus japonicus, seven genetic loci have been identified thus far as components of a common symbiosis (Sym) pathway shared by rhizobia and arbuscular mycorrhizal fungi. We characterized the nup85 mutants (nup85-1, -2, and -3) required for both symbioses and cloned the corresponding gene. When inoculated with Glomus intraradices, the hyphae managed to enter between epidermal cells, but they were unable to penetrate the cortical cell layer. The nup85-2 mutation conferred a weak and temperature-sensitive symbiotic phenotype, which resulted in low arbuscule formation at 22°C but allowed significantly higher arbuscule formation in plant cortical cells at 18°C. On the other hand, the nup85 mutants either did not form nodules or formed few nodules. When treated with Nod factor of Mesorhizobium loti, nup85 roots showed a high degree of root hair branching but failed to induce calcium spiking. In seedlings grown under uninoculated conditions supplied with nitrate, nup85 did not arrest plant growth but significantly reduced seed production. NUP85 encodes a putative nucleoporin with extensive similarity to vertebrate NUP85. Together with symbiotic nucleoporin NUP133, L. japonicus NUP85 might be part of a specific nuclear pore subcomplex that is crucial for fungal and rhizobial colonization and seed production.
Journal Article