The Development and Application of Multi-Omics Integration Approaches to Dissecting Complex Traits in Plants

86.5K

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186

authors

25

articles

The Development and Application of Multi-Omics Integration Approaches to Dissecting Complex Traits in Plants

86.5K

views

186

authors

25

articles

Editors

4

University of Idaho

Shandong University of Technology

Beijing Forestry University

Michigan State University

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High-throughput sequencing provides important insights for genomics research in biology. In recent years, sequencing technology has achieved rapid development, from next-generation sequencing (NGS) to third-generation sequencing (TGS), which effectively improves the length of sequencing reads and saves the cost of sequencing. A large amount of omics data is generated from high-throughput sequencing, including genomics, transcriptomics, translatomics, and epigenomics, which has greatly facilitated some interesting scientific discoveries from big data.

Recent plant biology research has examined how to effectively integrate the increasingly available multi-omics data to infer biologically realistic and statistically robust regulatory networks and link multi-omics findings to physiological, pathological, and resistance characteristics. In this Research Topic, we would like to focus on the recent progress of statistical and bioinformatics methods and applications aimed at integrating multi-omics data in plants. We welcome the submission of Original Research and Review articles on, but not limited to, the following subjects:
• New algorithms and computational tool development for integrative analysis of multi-omics data.
• Multilevel dynamic analysis of the related genetic mechanisms of biological complex traits from multi-omics data information in plants.
• Network inference methods for multi-omics in complex trait dissection in plants.

High-throughput sequencing provides important insights for genomics research in biology. In recent years, sequencing technology has achieved rapid development, from next-generation sequencing (NGS) to third-generation sequencing (TGS), which effectively improves the length of sequencing reads and saves the cost of sequencing. A large amount of omics data is generated from high-throughput sequencing, including genomics, transcriptomics, translatomics, and epigenomics, which has greatly facilitated some interesting scientific discoveries from big data.

Recent plant biology research has examined how to effectively integrate the increasingly available multi-omics data to infer biologically realistic and statistically robust regulatory networks and link multi-omics findings to physiological, pathological, and resistance characteristics. In this Research Topic, we would like to focus on the recent progress of statistical and bioinformatics methods and applications aimed at integrating multi-omics data in plants. We welcome the submission of Original Research and Review articles on, but not limited to, the following subjects:
• New algorithms and computational tool development for integrative analysis of multi-omics data.
• Multilevel dynamic analysis of the related genetic mechanisms of biological complex traits from multi-omics data information in plants.
• Network inference methods for multi-omics in complex trait dissection in plants.

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Editors

University of Idaho

Shandong University of Technology

Beijing Forestry University

Michigan State University

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57,801 Article views

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Frontiers in Genetics

Genomics of Plants and the Phytoecosystem

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