Identification of potential pathways associated with indole-3-butyric acid in citrus bud germination via transcriptomic analysis.

Indole-3-butyric acid (IBA) is widely used to encourage root development in cuttings of general field crops, vegetables, forest trees, fruit trees, and flowers. However, previous studies reported that IBA inhibited the germination of citrus buds via an unknown molecular mechanism. This study aimed to unravel the regulatory mechanisms underlying this inhibition. Citrus apical buds were sprayed with 100 mg ⋅ L-1 IBA. Subsequently, the plant hormone levels were analyzed, and transcriptomic analysis was performed. The results identified 3325 upregulated genes and 2926 downregulated genes in the citrus apical buds. The gene set enrichment analysis method was used to determine the Gene Ontology related to the treatment. Genes were enriched into 157 sets, including 17 upregulated sets and 140 downregulated sets, after indole butyric acid treatment. The upregulated gene sets were related to glucose import, sugar transmembrane transporter activity, and photosynthesis. The downregulated genes were mainly related to the ribosomal subunit and cell cycle process under butyric acid treatment. Kyoto Encyclopedia of Genes and Genomes pathway enrichment analysis revealed the enrichment of 11 pathways. Of note, genes related to the ribosome and proteasome pathways were significantly downregulated. Only one pathway was significantly upregulated: the autophagy pathway. Overall, these results provided insights into the molecular mechanisms underpinning the IBA-mediated inhibition of citrus bud germination inhibition. Also, the study provided a large transcriptomics dataset that could be used for further research.