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Putative cis-Regulatory Elements Predict Iron Deficiency Responses in Arabidopsis Roots

Birte Schwarz, Christina B. Azodi, Shin‐Han Shiu, Petra Bauer

2020PLANT PHYSIOLOGY52 citationsDOIOpen Access PDF

Abstract

), FER-LIKE FE DEFICIENCY-INDUCED TRANSCRIPTION FACTOR (FIT), a basic helix-loop-helix (bHLH) transcription factor (TF), regulates root Fe acquisition genes. Many other -Fe-induced genes are FIT independent, and instead regulated by other bHLH TFs and by yet unknown TFs. The cis-regulatory code, that is, the cis-regulatory elements (CREs) and their combinations that regulate plant -Fe-responses, remains largely elusive. Using Arabidopsis root transcriptome data and coexpression clustering, we identified over 100 putative CREs (pCREs) that predicted -Fe-induced gene expression in computational models. To assess pCRE properties and possible functions, we used large-scale in vitro TF binding data, positional bias, and evolutionary conservation. As one example, our approach uncovered pCREs resembling IDE1 (iron deficiency-responsive element 1), a known grass -Fe response CRE. Arabidopsis IDE1-likes were associated with FIT-dependent gene expression, more specifically with biosynthesis of Fe-chelating compounds. Thus, IDE1 seems to be conserved in grass and nongrass species. Our pCREs matched among others in vitro binding sites of B3, NAC, bZIP, and TCP TFs, which might be regulators of -Fe responses. Altogether, our findings provide a comprehensive source of cis-regulatory information for -Fe-responsive genes that advance our mechanistic understanding and inform future efforts in engineering plants with more efficient Fe uptake or transport systems.

Topics & Concepts

ArabidopsisTranscription factorBiologyTranscriptomeArabidopsis thalianaGeneGeneticsGene regulatory networkRegulation of gene expressionRegulatory sequenceGene expressionComputational biologyCell biologyMutantPlant Micronutrient Interactions and EffectsPlant nutrient uptake and metabolismPlant Stress Responses and Tolerance
Putative cis-Regulatory Elements Predict Iron Deficiency Responses in Arabidopsis Roots | Litcius