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The Integrated Genomics of Crop Domestication and Breeding
Xuehui Huang, Sanwen Huang, Bin Han, and Jiayang Li
Cell
Abstract
As a major event in human civilization, wild plants were successfully domesticated to be crops, largely owing to continuing artificial selection. Here, we summarize new discoveries made during the past decade in crop domestication and breeding. The construction of crop genome maps and the functional characterization of numerous trait genes provide foundational information. Approaches to read, interpret, and write complex genetic information are being leveraged in many plants for highly efficient de novo or re-domestication. Understanding the underlying mechanisms of crop microevolution and applying the knowledge to agricultural productions will give possible solutions for future challenges in food security.
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论文编号: |
DOI:10.1016/j.cell.2022.04.036 |
论文题目: |
The Integrated Genomics of Crop Domestication and Breeding |
英文论文题目: |
The Integrated Genomics of Crop Domestication and Breeding |
第一作者: |
Xuehui Huang, Sanwen Huang, Bin Han, and Jiayang Li |
英文第一作者: |
Xuehui Huang, Sanwen Huang, Bin Han, and Jiayang Li |
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2022-06-24 |
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摘要: |
As a major event in human civilization, wild plants were successfully domesticated to be crops, largely owing to continuing artificial selection. Here, we summarize new discoveries made during the past decade in crop domestication and breeding. The construction of crop genome maps and the functional characterization of numerous trait genes provide foundational information. Approaches to read, interpret, and write complex genetic information are being leveraged in many plants for highly efficient de novo or re-domestication. Understanding the underlying mechanisms of crop microevolution and applying the knowledge to agricultural productions will give possible solutions for future challenges in food security. |
英文摘要: |
As a major event in human civilization, wild plants were successfully domesticated to be crops, largely owing to continuing artificial selection. Here, we summarize new discoveries made during the past decade in crop domestication and breeding. The construction of crop genome maps and the functional characterization of numerous trait genes provide foundational information. Approaches to read, interpret, and write complex genetic information are being leveraged in many plants for highly efficient de novo or re-domestication. Understanding the underlying mechanisms of crop microevolution and applying the knowledge to agricultural productions will give possible solutions for future challenges in food security. |
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Cell |
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Cell |
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Xuehui Huang, Sanwen Huang, Bin Han, and Jiayang Li. The Integrated Genomics of Crop Domestication and Breeding. Cell. DOI:10.1016/j.cell.2022.04.036 |
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