2006
DOI: 10.1105/tpc.106.043778
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TheMedicago truncatulaCRE1 Cytokinin Receptor Regulates Lateral Root Development and Early Symbiotic Interaction withSinorhizobium meliloti

Abstract: Legumes develop different types of lateral organs from their primary root, lateral roots and nodules, the latter depending on a symbiotic interaction with Sinorhizobium meliloti. Phytohormones have been shown to function in the control of these organogeneses. However, related signaling pathways have not been identified in legumes. We cloned and characterized the expression of Medicago truncatula genes encoding members of cytokinin signaling pathways. RNA interference of the cytokinin receptor homolog Cytokinin… Show more

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Cited by 489 publications
(572 citation statements)
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“…The induction of the putative transmembrane-domain-containing transcription factor MtNIN is dependent on MtCRE1 58 . Mtnin mutants are particularly interesting because they have early signalling responses to Nod factor but are impaired in both induction of cortical cell division and infection thread development, suggesting that MtNIN might be involved in integrating these processes 61 (TABLE 1).…”
Section: Targeting Infection Threadsmentioning
confidence: 99%
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“…The induction of the putative transmembrane-domain-containing transcription factor MtNIN is dependent on MtCRE1 58 . Mtnin mutants are particularly interesting because they have early signalling responses to Nod factor but are impaired in both induction of cortical cell division and infection thread development, suggesting that MtNIN might be involved in integrating these processes 61 (TABLE 1).…”
Section: Targeting Infection Threadsmentioning
confidence: 99%
“…DMI3 encodes a Ca 2+ -calmodulin-dependent protein kinase that is required for the induction of cell division in the root cortex and for the transcriptional changes required for the establishment of the symbiosis. Two GRAS family transcriptional regulators, nodulation signalling pathway 1 (NSP1) and NSP2, are also required [58][59][60] ) are required for infection threads to extend to the base of the root hair cell. c | MtCRE1 (REFS [58][59][60] ), MtBIT1/ERN 44 , MtRIT1 (REF.…”
Section: Future Perspectivesmentioning
confidence: 99%
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“…A reduction in auxin flow has been confirmed by radioactive auxin tracer experiments for M. truncatula and vetch (Vicia faba) but not Lotus japonicus (Boot et al, 1999;PaciosBras et al, 2003;van Noorden et al, 2006;Wasson et al, 2006). Cytokinins are essential for nodule development because L. japonicus knockout mutants for the cytokinin receptor gene, LHK1, or M. truncatula transgenic plants with suppressed expression of the ortholog, CRE1, were defective in nodule primordia formation (Gonzalez-Rizzo et al, 2006;Murray et al, 2007). Additionally, a L. japonicus gain-of-function mutant for the LHK1 receptor provoked spontaneous nodules, indicating that cytokinin signaling is both necessary and sufficient for nodule formation (Tirichine et al, 2007).…”
mentioning
confidence: 95%
“…However, exogenous application of cytokinin to legume roots induces responses similar to those to the rhizobial Nod factors, including cortical cell division, amyloplast deposition and induction of early nodulin gene expression [24,25]. RNA interference of the cytokinin receptor homolog Cytokinin Response1 (MtCRE1) leads to cytokinin-insensitive roots, leading to a strong reduction in nodulation [26]. Cytokinin is the sole phytohormone studied thus far that has a positive role in nodule regulation.…”
Section: Discussionmentioning
confidence: 99%