Application of Synthetic Peptide CEP1 Increases Nutrient Uptake Rates Along Plant Roots

Sonali Roy, Marcus Griffiths, Ivone Torres-Jerez, Bailey Sanchez, Elizabeth Antonelli, Divya Jain, Nicholas Krom, Shulan Zhang, Larry M. York, Wolf Rüdiger Scheible, Michael Udvardi

Research output: Contribution to journalArticlepeer-review

12 Scopus citations

Abstract

The root system of a plant provides vital functions including resource uptake, storage, and anchorage in soil. The uptake of macro-nutrients like nitrogen (N), phosphorus (P), potassium (K), and sulphur (S) from the soil is critical for plant growth and development. Small signaling peptide (SSP) hormones are best known as potent regulators of plant growth and development with a few also known to have specialized roles in macronutrient utilization. Here we describe a high throughput phenotyping platform for testing SSP effects on root uptake of multiple nutrients. The SSP, CEP1 (C-TERMINALLY ENCODED PEPTIDE) enhanced nitrate uptake rate per unit root length in Medicago truncatula plants deprived of N in the high-affinity transport range. Single structural variants of M. truncatula and Arabidopsis thaliana specific CEP1 peptides, MtCEP1D1:hyp4,11 and AtCEP1:hyp4,11, enhanced uptake not only of nitrate, but also phosphate and sulfate in both model plant species. Transcriptome analysis of Medicago roots treated with different MtCEP1 encoded peptide domains revealed that hundreds of genes respond to these peptides, including several nitrate transporters and a sulfate transporter that may mediate the uptake of these macronutrients downstream of CEP1 signaling. Likewise, several putative signaling pathway genes including LEUCINE-RICH REPEAT RECPTOR-LIKE KINASES and Myb domain containing transcription factors, were induced in roots by CEP1 treatment. Thus, a scalable method has been developed for screening synthetic peptides of potential use in agriculture, with CEP1 shown to be one such peptide.

Original languageEnglish
Article number793145
JournalFrontiers in Plant Science
Volume12
DOIs
StatePublished - Jan 3 2022

Funding

This work was funded by the National Science Foundation award #1444549 to W-RS and MU; USDA-NIFA award #2017-67007-25948 to LY; the Center for Bioenergy Innovation, a United States Department of Energy Bioenergy Research Center supported by the Office of Biological and Environmental Research in the DOE Office of Science; and the Lloyd Summer Noble Summer Scholar grant to SR and MG.

FundersFunder number
USDA-NIFA2017-67007-25948
United States Department of Energy Bioenergy Research Center
National Science Foundation1444549
Office of Science
Biological and Environmental Research
Center for Bioenergy Innovation

    Keywords

    • Arabidopsis thaliana
    • CEP1 family
    • Medicago truncatula
    • nutrient uptake
    • peptide signaling

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