Genome and Epigenome Editing for Stress-Tolerant Crops
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Erscheint vorauss. 31. Juli 2025
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"Modern plant molecular biotechnology continues to develop to achieve high-throughput, high-resolution, smart, and precision-based tools such as multiple omics-based functional genomics, CRISPR/Cas-mediated genome editing, and RNA technology. In the last decade, genome editing technology has shown the potential of plant genomes through the precise delivery of tolerant genes for crop improvement. The system of genome editing has evolved quickly, and now CRISPR/Cas has become the dominant technology. Thus, the integration and coordination of multiple omics and CRISPR/Cas for organizing…mehr

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Produktbeschreibung
"Modern plant molecular biotechnology continues to develop to achieve high-throughput, high-resolution, smart, and precision-based tools such as multiple omics-based functional genomics, CRISPR/Cas-mediated genome editing, and RNA technology. In the last decade, genome editing technology has shown the potential of plant genomes through the precise delivery of tolerant genes for crop improvement. The system of genome editing has evolved quickly, and now CRISPR/Cas has become the dominant technology. Thus, the integration and coordination of multiple omics and CRISPR/Cas for organizing omics-CRISPR breeding strategies has become a key focus in plant science. In addition, RNA technology/epigenetics has been introduced into diverse fields of plant science and has been proven to have great potential in mitigating plant stress responses as well as being a fine-tuning regulator to advance crop improvement and breeding. The role of non-coding RNAs (ncRNAs) in the management of CRISPR-edited crop production has become an important topic. In the future, achieving climate-resilient agriculture needs the coordination of some crucial technologies involving multiple omics, CRISPR/Cas, and functional RNA technology/epigenetics"--
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Autorenporträt
Jen-Tsung Chen is Professor of Cell Biology at the Department of Life Sciences, National University of Kaohsiung, Taiwan, where he teaches courses on cell biology, genomics, proteomics, plant physiology, and plant biotechnology. His research focuses on bioactive compounds, plant molecular biology, bioinformatics, and systems pharmacology. Dr. Chen is an editorial board member for several prestigious journals, including Plant Methods and GM Crops & Food. He has authored multiple books on drug discovery, nanotechnology, plant functional genomics, and CRISPR-based plant genome editing. Dr. Chen was included in the "World's Top 2% Scientists" by Stanford University and Elsevier in 2023 and 2024.