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Aggregated gene co-expression networks predict transcription factor regulatory landscapes in grapevine

Luis Orduña, Antonio Santiago, David Navarro‐Payá, Chen Zhang, Darren C. J. Wong, José Tomás Matus

2023Journal of Experimental Botany13 citationsDOI

Abstract

Gene co-expression networks (GCNs) have not been extensively studied in non-model plants. However, the rapid accumulation of transcriptome datasets in certain species represents an opportunity to explore underutilized network aggregation approaches. In fact, aggregated GCNs (aggGCNs) highlight robust co-expression interactions and improve functional connectivity. We applied and evaluated two different aggregation methods on public grapevine RNA-Seq datasets from three different tissues (leaf, berry, and 'all organs'). Our results show that co-occurrence-based aggregation generally yielded the best-performing networks. We applied aggGCNs to study several transcription factor gene families, showing their capacity for detecting both already-described and novel regulatory relationships between R2R3-MYBs, bHLH/MYC, and multiple specialized metabolic pathways. Specifically, transcription factor gene- and pathway-centered network analyses successfully ascertained the previously established role of VviMYBPA1 in controlling the accumulation of proanthocyanidins while providing insights into its novel role as a regulator of p-coumaroyl-CoA biosynthesis as well as the shikimate and aromatic amino acid pathways. This network was validated using DNA affinity purification sequencing data, demonstrating that co-expression networks of transcriptional activators can serve as a proxy of gene regulatory networks. This study presents an open repository to reproduce networks in other crops and a GCN application within the Vitviz platform, a user-friendly tool for exploring co-expression relationships.

Topics & Concepts

Transcription factorComputational biologyGeneTranscriptomeGene expressionBiologyGene regulatory networkRegulation of gene expressionRegulatorGeneticsPlant Gene Expression AnalysisPlant biochemistry and biosynthesisHorticultural and Viticultural Research
Aggregated gene co-expression networks predict transcription factor regulatory landscapes in grapevine | Litcius