A phylogenetic strategy based on a legume-specific whole genome duplication yields symbiotic cytokinin type-A Response Regulators

R. Op den Camp, S. De Mita, A. Lillo, Q. Cao, E.H.M. Limpens, T. Bisseling, R. Geurts

Research output: Contribution to journalArticleAcademicpeer-review

76 Citations (Scopus)

Abstract

Legumes host their rhizobium symbiont in novel root organs, called nodules. Nodules originate from differentiated root cortical cells that de-differentiate and subsequently form nodule primordia, a process controlled by cytokinin. A whole genome duplication (WGD) has occurred at the root of the legume Papilionoideae subfamily. We hypothesize that gene pairs originating from this duplication event and are conserved in distinct Papilionoideae lineages have evolved symbiotic functions. A phylogenetic strategy was applied to search for such gene pairs in order to identify novel regulators of nodulation, using the cytokinin phosphorelay pathway as a test case. In this way two paralogous type-A cytokinin Response Regulators were identified that are involved in root nodule symbiosis. MtRR9 and MtRR11 in Medicago truncatula, and an ortholog in Lotus japonicus, are rapidly induced upon rhizobium Nod factor signaling. Constitutive expression of MtRR9 results in arrested primordia that have emerged from cortical, endodermal and pericycle cells. In legumes lateral root primordia are not exclusively formed from pericycle cells, but also involves the root cortical cell layer. Therefore, the MtRR9 induced foci of cell divisions show a strong resemblance to lateral root primordia, suggesting an ancestral function of MtRR9 in this process. Together, these findings provide a proof of principle for the applied phylogenetic strategy to identify genes with a symbiotic function in legumes.
Original languageEnglish
Pages (from-to)2013-2022
JournalPlant Physiology
Volume157
Issue number4
DOIs
Publication statusPublished - 2011

Keywords

  • lateral root-formation
  • nodule organogenesis
  • medicago-truncatula
  • lotus-japonicus
  • signal-transduction
  • diverse roles
  • white clover
  • gene family
  • arabidopsis
  • nodulation

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