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The single-cell transcriptome program of nodule development cellular lineages in Medicago truncatula

Wendell J. Pereira, Jade Boyd, Daniel Conde, Paolo M. Triozzi, Kelly M. Balmant, Christopher Dervinis, Henry W. Schmidt, Carolina Ribeiro Diniz Boaventura Novaes, Sanhita Chakraborty, Sara Knaack, Yueyao Gao, F. Alex Feltus, Sushmita Roy, Jean‐Michel Ané, Julia Frugoli, Matias Kirst

2024Cell Reports40 citationsDOIOpen Access PDF

Abstract

Legumes establish a symbiotic relationship with nitrogen-fixing rhizobia by developing nodules. Nodules are modified lateral roots that undergo changes in their cellular development in response to bacteria, but the transcriptional reprogramming that occurs in these root cells remains largely uncharacterized. Here, we describe the cell-type-specific transcriptome response of Medicago truncatula roots to rhizobia during early nodule development in the wild-type genotype Jemalong A17, complemented with a hypernodulating mutant (sunn-4) to expand the cell population responding to infection and subsequent biological inferences. The analysis identifies epidermal root hair and stele sub-cell types associated with a symbiotic response to infection and regulation of nodule proliferation. Trajectory inference shows cortex-derived cell lineages differentiating to form the nodule primordia and, posteriorly, its meristem, while modulating the regulation of phytohormone-related genes. Gene regulatory analysis of the cell transcriptomes identifies new regulators of nodulation, including STYLISH 4, for which the function is validated.

Topics & Concepts

Medicago truncatulaTranscriptomeBiologyCell biologyNodule (geology)Computational biologyEvolutionary biologyBotanySymbiosisGeneticsGeneGene expressionPaleontologyBacteriaLegume Nitrogen Fixing SymbiosisPlant Pathogens and ResistancePlant-Microbe Interactions and Immunity
The single-cell transcriptome program of nodule development cellular lineages in Medicago truncatula | Litcius