A plant regulator controlling development of symbiotic root nodules

Schauser, Leif; Roussis, Andreas; Stiller, Jiri; Stougaard, Jens

doi:10.1038/46058

Cited by 786 publications

(731 citation statements)

References 26 publications

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“…Reducing the level of HMGR1 by inhibitor lavastatin or RNA interference (RNAi) expression results in a drastic decrease in nodulation in M. truncatula (Kevei et al, 2007). SIP1 binds the promoter of the NIN (for nodule inception) gene (Zhu et al, 2008), which is required for rhizobial recognition, IT formation, and nodule primordial initiation (Schauser et al, 1999). These results suggest that SymRK may form protein complex with key regulatory proteins of downstream cellular responses.…”

mentioning

confidence: 88%

“…To investigate if nodulin gene expression was affected by SIE3 RNAi, we examined the expression levels of NIN and ENOD40-2, two early nodulin genes implicated in the processes of rhizobial entrance, nodule initiation, and subsequent organogenesis (Schauser et al, 1999;Kumagai et al, 2006), as well as the expression of Lb (for leghemoglobin), a typical nodulin gene required for nitrogen fixation (Ott et al, 2005). Real-time PCR analysis showed that the expression levels of the two early nodulin genes (NIN and ENOD40-2), but not Lb, were reduced drastically in the SIE3 RNAi hairy roots, as compared with those in the control hairy roots ( Fig.…”

Section: Suppression Of Rhizobial Infection By Sie3 Rnaimentioning

confidence: 99%

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A Ubiquitin Ligase of Symbiosis Receptor Kinase Involved in Nodule Organogenesis

et al. 2012

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The symbiosis receptor kinase (SymRK) is required for morphological changes of legume root hairs triggered by rhizobial infection. How protein turnover of SymRK is regulated and how the nodulation factor signals are transduced downstream of SymRK are not known. In this report, a SymRK-interacting E3 ubiquitin ligase (SIE3) was shown to bind and ubiquitinate SymRK. The SIE3-SymRK interaction and the ubiquitination of SymRK were shown to occur in vitro and in planta. SIE3 represents a new class of plant-specific E3 ligases that contain a unique pattern of the conserved CTLH (for C-terminal to LisH), CRA (for CT11-RanBPM), and RING (for Really Interesting New Gene) domains. Expression of SIE3 was detected in all tested tissues of Lotus japonicus plants, and its transcript level in roots was enhanced by rhizobial infection. The SIE3 protein was localized to multiple subcellular locations including the nuclei and plasma membrane, where the SIE3-SymRK interaction took place. Overexpression of SIE3 promoted nodulation in transgenic hairy roots, whereas downregulation of SIE3 transcripts by RNA interference inhibited infection thread development and nodule organogenesis. These results suggest that SIE3 represents a new class of E3 ubiquitin ligase, acts as a regulator of SymRK, and is involved in rhizobial infection and nodulation in L. japonicus.

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confidence: 88%

Section: Suppression Of Rhizobial Infection By Sie3 Rnaimentioning

confidence: 99%

A Ubiquitin Ligase of Symbiosis Receptor Kinase Involved in Nodule Organogenesis

et al. 2012

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“…Another gene with a potential role in N regulation of nodulation has recently been identified in Lotus japonicus (Schauser et al, 1999). This gene (Nin), which is required for the formation of infection threads and the initiation of nodule primordia, encodes a putative transcription factor with homology to the Mid protein in Chlamydomonas.…”

Section: Localized Responsesmentioning

confidence: 99%

“…This gene (Nin), which is required for the formation of infection threads and the initiation of nodule primordia, encodes a putative transcription factor with homology to the Mid protein in Chlamydomonas. Mid is a developmental regulator involved in determining mating type during gametogenesis (Ferris and Goodenough, 1997), and since gametogenesis in Chlamydomonas is induced by N limitation it has been postulated that Nin might play a role in N regulation of nodulation (Schauser et al, 1999). Recently it was shown that NO 3 − inhibited gametogenesis and the expression of two gamete-specific genes even in NR-deficient mutants of Chlamydomonas, indicating that the NO 3 − ion itself is providing the negative regulatory signal for the sexual differentiation of the alga (Pozuelo et al, 2000).…”

Section: Localized Responsesmentioning

confidence: 99%

The nutritional control of root development

Forde

Lorenzo

2002

Interactions in the Root Environment: An Integrated Approach

216

254

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Root development is remarkably sensitive to variations in the supply and distribution of inorganic nutrients in the soil. Here we review examples of the ways in which nutrients such as N, P, K and Fe can affect developmental processes such as root branching, root hair production, root diameter, root growth angle, nodulation and proteoid root formation. The nutrient supply can affect root development either directly, as a result of changes in the external concentration of the nutrient, or indirectly through changes in the internal nutrient status of the plant. The direct pathway results in developmental responses that are localized to the part of the root exposed to the nutrient supply; the indirect pathway produces systemic responses and seems to depend on long-distance signals arising in the shoot. We propose the term 'trophomorphogenesis' to describe the changes in plant morphology that arise from variations in the availability or distribution of nutrients in the environment. We discuss what is currently known about the mechanisms of external and internal nutrient sensing, the possible nature of the long-distance signals and the role of hormones in the trophomorphogenic response.Abbreviations: ABA, abscisic acid; NR, nitrate reductase; P i , inorganic phosphate

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“…This signaling cascade triggers Ca 2+ spiking in and around the nucleus. Decoding of this Ca 2+ signature by a Ca 2+ calmodulin-binding protein (DMI3) results in the activation of the transcription factors Nodulation Signaling Pathway1 (NSP1), NSP2, Ethylene-Responsive Binding Domain Factor Required for Nodulation1 (ERN1), and Nodule Inception (NIN; Schauser et al, 1999;Catoira et al, 2000;Borisov et al, 2003;Oldroyd and Long, 2003;Gleason et al, 2006;Andriankaja et al, 2007;Marsh et al, 2007;Middleton et al, 2007;Oldroyd and Downie, 2008). NSP2, ERN1, and NIN also play a role downstream of the cytokinin signaling to trigger cortical cell division (Tirichine et al, 2007;Frugier et al, 2008).…”

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confidence: 99%

CLE Peptides Control Medicago truncatula Nodulation Locally and Systemically

Mortier

Herder²,

Whitford³

et al. 2010

Plant Physiology

294

406

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The CLAVATA3/embryo-surrounding region (CLE) peptides control the fine balance between proliferation and differentiation in plant development. We studied the role of CLE peptides during indeterminate nodule development and identified 25 MtCLE peptide genes in the Medicago truncatula genome, of which two genes, MtCLE12 and MtCLE13, had nodulation-related expression patterns that were linked to proliferation and differentiation. MtCLE13 expression was up-regulated early in nodule development. A high-to-low expression gradient radiated from the inner toward the outer cortical cell layers in a region defining the incipient nodule. At later stages, MtCLE12 and MtCLE13 were expressed in differentiating nodules and in the apical part of mature, elongated nodules. Functional analysis revealed a putative role for MtCLE12 and MtCLE13 in autoregulation of nodulation, a mechanism that controls the number of nodules and involves systemic signals mediated by a leucine-rich repeat receptor-like kinase, SUNN, which is active in the shoot. When MtCLE12 and MtCLE13 were ectopically expressed in transgenic roots, nodulation was abolished at the level of the nodulation factor signal transduction, and this inhibition involved long-distance signaling. In addition, composite plants with roots ectopically expressing MtCLE12 or MtCLE13 had elongated petioles. This systemic effect was not observed in transgenic roots ectopically expressing MtCLE12 and MtCLE13 in a sunn-1 mutant background, although nodulation was still strongly reduced. These results suggest multiple roles for CLE signaling in nodulation.

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A plant regulator controlling development of symbiotic root nodules

Cited by 786 publications

References 26 publications

A Ubiquitin Ligase of Symbiosis Receptor Kinase Involved in Nodule Organogenesis

A Ubiquitin Ligase of Symbiosis Receptor Kinase Involved in Nodule Organogenesis

The nutritional control of root development

CLE Peptides Control Medicago truncatula Nodulation Locally and Systemically

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