Advances in Horticultural Research Based on Multi-Omics and Computational Biology

Dear Colleagues,

Horticultural plants play an important role for humans as a source of herbal medicines, beverages, vegetables, fruits, and ornamentals. High-throughput technologies have revolutionised the time scale and power of detecting physiological changes and thus achieving insights into the biological mechanisms functioning in plants. All manner of sequencing data and tools have helped us better understand the evolutionary histories of horticultural plants and provided genotype and phenotype resources for molecular studies on economically important traits. Integration of these omics technologies (e.g., genomics, transcriptomics, proteomics, metabolomics, lipidomics, ionomics, and redoxomics) currently lies at the forefront of plant research. The genomes of horticultural plants are highly diverse and complex, often with a high degree of heterozygosity and polyploidy. Thus, novel computational methods must be developed to take advantage of state-of-the-art genomic technologies. As a result, the mining of multiomics data and the development of new computational biology approaches for the reliable and efficient analysis of plant traits is necessary. Multiomics and computational biology approaches allow understanding of the biochemical mechanisms involved in determining plant traits. The integration of multi-omics data and computational biology technologies allows construction of biological networks to identify traits that can be further applied towards horticultural crop breeding in developing more productive crop varieties.

This Research Topic aims to combine high-throughput omics and computational biology technologies in identifying coherently matching geno–pheno relationships or associations in horticultural crops research. We encourage manuscripts dedicated to improving our understanding of biological mechanisms, from the genotype to phenotype level.

Prof. Dr. Yunpeng Cao
Dr. Jen-Tsung Chen
Guest Editors

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• multi-omics analysis
• bioinformatics
• genomics
• phenomics
• regulation of gene expression
• gene network
• quantitative genetics