Plant Regulomics: a Data-driven Interface for Retrieving Upstream Regulators from Plant Multi-omics Data
Overview
Cell Biology
Molecular Biology
Authors
Affiliations
High-throughput technology has become a powerful approach for routine plant research. Interpreting the biological significance of high-throughput data has largely focused on the functional characterization of a large gene list or genomic loci that involves the following two aspects: the functions of the genes or loci and how they are regulated as a whole, i.e. searching for the upstream regulators. Traditional platforms for functional annotation largely help resolving the first issue. Addressing the second issue is essential for a global understanding of the regulatory mechanism, but is more challenging, and requires additional high-throughput experimental evidence and a unified statistical framework for data-mining. The rapid accumulation of 'omics data provides a large amount of experimental data. We here present Plant Regulomics, an interface that integrates 19 925 transcriptomic and epigenomic data sets and diverse sources of functional evidence (58 112 terms and 695 414 protein-protein interactions) from six plant species along with the orthologous genes from 56 whole-genome sequenced plant species. All pair-wise transcriptomic comparisons with biological significance within the same study were performed, and all epigenomic data were processed to genomic loci targeted by various factors. These data were well organized to gene modules and loci lists, which were further implemented into the same statistical framework. For any input gene list or genomic loci, Plant Regulomics retrieves the upstream factors, treatments, and experimental/environmental conditions regulating the input from the integrated 'omics data. Additionally, multiple tools and an interactive visualization are available through a user-friendly web interface. Plant Regulomics is available at http://bioinfo.sibs.ac.cn/plant-regulomics.
Epigenetics in the modern era of crop improvements.
Xue Y, Cao X, Chen X, Deng X, Deng X, Ding Y Sci China Life Sci. 2025; .
PMID: 39808224 DOI: 10.1007/s11427-024-2784-3.
Unraveling the specialized metabolic pathways in medicinal plant genomes: a review.
Wang M, Zhang S, Li R, Zhao Q Front Plant Sci. 2025; 15():1459533.
PMID: 39777086 PMC: 11703845. DOI: 10.3389/fpls.2024.1459533.
Gao J, Zhang N, Liu G, Tian J, Chen M, Wang Y J Integr Plant Biol. 2024; 66(11):2561-2577.
PMID: 39360899 PMC: 11583846. DOI: 10.1111/jipb.13780.
Guo H, Lv J, Su X, Chen L, Ren J, Liu L Front Plant Sci. 2024; 15:1366986.
PMID: 38576779 PMC: 10991840. DOI: 10.3389/fpls.2024.1366986.
Overexpression of transcription factor accelerates vegetative development in .
Apodiakou A, Alseekh S, Hoefgen R, Whitcomb S Front Plant Sci. 2024; 15:1327152.
PMID: 38571711 PMC: 10988502. DOI: 10.3389/fpls.2024.1327152.