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Population genomic analysis reveals key genetic variations and the driving force for embryonic callus induction capability in maize

Peng Liu Thomas Lübberstedt Yaou Shen Langlang Ma Siyi Jian Yao He Guangsheng Yuan Fei Ge Zhong Chen Chaoying Zou Guangtang Pan

农业科学学报（英文）2024，Vol.23Issue(7)：2178-2195,18.

农业科学学报（英文）2024，Vol.23Issue(7)：2178-2195,18.DOI:10.1016/j.jia.2023.06.032

Population genomic analysis reveals key genetic variations and the driving force for embryonic callus induction capability in maize

Peng Liu ¹Thomas Lübberstedt ²Yaou Shen ¹Langlang Ma ¹Siyi Jian ¹Yao He ¹Guangsheng Yuan ¹Fei Ge ¹Zhong Chen ¹Chaoying Zou ¹Guangtang Pan¹

作者信息

1. State Key Laboratory of Crop Gene Exploration and Utilization in Southwest China/Maize Research Institute,Sichuan Agricultural University,Chengdu 611130,China
2. Department of Agronomy,Iowa State University,Ames,IA 50011,USA
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摘要

关键词

maize/genetic transformation/embryonic callus/selective signal/association analysis

Key words

maize/genetic transformation/embryonic callus/selective signal/association analysis

引用本文复制引用

Peng Liu,Thomas Lübberstedt,Yaou Shen,Langlang Ma,Siyi Jian,Yao He,Guangsheng Yuan,Fei Ge,Zhong Chen,Chaoying Zou,Guangtang Pan..Population genomic analysis reveals key genetic variations and the driving force for embryonic callus induction capability in maize[J].农业科学学报（英文）,2024,23(7):2178-2195,18.

基金项目

This work was supported by the National Key Research and Development Program of China(2021YFF1000303),the National Nature Science Foundation of China(32072073,32001500,and 32101777),and the Sichuan Science and Technology Program,China(2021JDTD0004 and 2021YJ0476). （2021YFF1000303）

农业科学学报（英文）

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ISSN：2095-3119

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