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Targeting a Gene Regulatory Element Enhances Rice Grain Yield by Decoupling Panicle Number and Size
Xiaoguang Song, Xiangbing Meng, Hongyan Guo, Qiao Cheng, Yanhui Jing, Mingjiang Chen, Guifu Liu, Bing Wang, Yonghong Wang, Jiayang Li, Hong Yu
Nature Biotechnology
Abstract
Crop genetic improvement requires balancing complex tradeoffs caused by gene pleiotropy and linkage drags, as exemplified by IPA1 (Ideal Plant Architecture 1), a typical pleiotropic gene in rice that increases grains per panicle but reduces tillers. In this study, we identified a 54-base pair cis-regulatory region in IPA1 via a tiling-deletion-based CRISPR–Cas9 screen that, when deleted, resolves the tradeoff between grains per panicle and tiller number, leading to substantially enhanced grain yield per plant. Mechanistic studies revealed that the deleted fragment is a target site for the transcription factor An-1 to repress IPA1 expression in panicles and roots. Targeting gene regulatory regions should help dissect tradeoff effects and provide a rich source of targets for breeding complementary beneficial traits.
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论文编号: |
DOI:10.1038/s41587-022-01281-7 |
论文题目: |
Targeting a Gene Regulatory Element Enhances Rice Grain Yield by Decoupling Panicle Number and Size |
英文论文题目: |
Targeting a Gene Regulatory Element Enhances Rice Grain Yield by Decoupling Panicle Number and Size |
第一作者: |
Xiaoguang Song, Xiangbing Meng, Hongyan Guo, Qiao Cheng, Yanhui Jing, Mingjiang Chen, Guifu Liu, Bing Wang, Yonghong Wang, Jiayang Li, Hong Yu |
英文第一作者: |
Xiaoguang Song, Xiangbing Meng, Hongyan Guo, Qiao Cheng, Yanhui Jing, Mingjiang Chen, Guifu Liu, Bing Wang, Yonghong Wang, Jiayang Li, Hong Yu |
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2022-04-22 |
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Crop genetic improvement requires balancing complex tradeoffs caused by gene pleiotropy and linkage drags, as exemplified by IPA1 (Ideal Plant Architecture 1), a typical pleiotropic gene in rice that increases grains per panicle but reduces tillers. In this study, we identified a 54-base pair cis-regulatory region in IPA1 via a tiling-deletion-based CRISPR–Cas9 screen that, when deleted, resolves the tradeoff between grains per panicle and tiller number, leading to substantially enhanced grain yield per plant. Mechanistic studies revealed that the deleted fragment is a target site for the transcription factor An-1 to repress IPA1 expression in panicles and roots. Targeting gene regulatory regions should help dissect tradeoff effects and provide a rich source of targets for breeding complementary beneficial traits. |
英文摘要: |
Crop genetic improvement requires balancing complex tradeoffs caused by gene pleiotropy and linkage drags, as exemplified by IPA1 (Ideal Plant Architecture 1), a typical pleiotropic gene in rice that increases grains per panicle but reduces tillers. In this study, we identified a 54-base pair cis-regulatory region in IPA1 via a tiling-deletion-based CRISPR–Cas9 screen that, when deleted, resolves the tradeoff between grains per panicle and tiller number, leading to substantially enhanced grain yield per plant. Mechanistic studies revealed that the deleted fragment is a target site for the transcription factor An-1 to repress IPA1 expression in panicles and roots. Targeting gene regulatory regions should help dissect tradeoff effects and provide a rich source of targets for breeding complementary beneficial traits. |
刊物名称: |
Nature Biotechnology |
英文刊物名称: |
Nature Biotechnology |
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Xiaoguang Song, Xiangbing Meng, Hongyan Guo, Qiao Cheng, Yanhui Jing, Mingjiang Chen, Guifu Liu, Bing Wang, Yonghong Wang, Jiayang Li, Hong Yu. Targeting a Gene Regulatory Element Enhances Rice Grain Yield by Decoupling Panicle Number and Size. Nature Biotechnology . DOI:10.1038/s41587-022-01281-7
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