【基本信息】

丁金金、博士。1994年10月出生，目前在作物遗传育种系。邮箱：[email protected], [email protected]

【研究方向】

小麦品质性状形成的分子机制、分子设计育种、功能性淀粉材料的创制。

【主要讲授课程】

本科生课程:植物组织培养、遗传学等

【教育经历】

2014.09～2018.06，石河子大学，种子科学与工程专业，农学学士

2018.09～2025.06，四川农业大学（硕博连读），作物遗传育种专业，农学博士

2024.04～2025.04，英国John Inns Centre，访问博士

【工作经历】

2025.09～至今，换妻论坛 ，作物遗传育种系，讲师

【学术论文】

（1）Jinjin Ding, Brendan Fahy, Ryo Matsushima, Qiantao Jiang and David Seung.  Starch Synthase 3 isoforms are essential for normal starch granule initiation in wheat endosperm. New Phytologist.(2026).（第一作者兼通讯作者）

（2）Jinjin Ding, Yulong Li, Jing Liu, David Seung, Qiang Xu, Yazhou Zhang, Huaping Tang et al. Dual-Layer Transcriptional-Protein Regulation by HvAP2-12 Represses HvAP2-18 Activity to Fine-Tune Barley Starch Synthesis[J]. Plant Biotechnology Journal (2025) 0:1-16（入选封面文章）

（3）Jinjin Ding, Hassan Karim, Yulong Li, Wendy Harwood, Carlos Guzmán, Na Lin, Qiang Xu et al. Re-examination of the APETALA2/Ethylene-responsive factor gene family in barley (Hordeum vulgare l.) indicates a role in the regulation of starch synthesis. Frontiers in Plant Science 12 (2021): 791584.

（4）Jinjin Ding, Xiaolei Chen, Hassan Karim, Guzmán Carlos, Wendy Harwood, Huaping Tang, Huixue Dong et al. Genome-wide identification of the basic leucine zipper transcription factor genes related to starch synthesis in wheat (Triticum aestivum L.). Plant Growth Regulation (2024): 1-15.

（5）Zhou, Gaozong*, Jinjin Ding*, Yulong Li, Qiang Xu, Yazhou Zhang, Huaping Tang, Pengfei Qi et al. Ethylene-Responsive Factor Hverf72 Regulates Starch Synthesis and B-Type Starch Granules Initiation in Barley. Carbohydrate Polymers 368 (2025): 124167. 共同第一作者

（6）Yang Qiang*, Jinjin Ding*, Xiuqin Feng, Xiaojuan Zhong, Jingyu Lan, Huaping Tang, Wendy Harwood et al. Editing of the starch synthase IIa gene led to transcriptomic and metabolomic changes and high amylose starch in barley. Carbohydrate Polymers 285 (2022): 119238. 共同第一作者

（7）Luo Mi*, Jinjin Ding*, Yu Li, Huaping Tang, Pengfei Qi, Jian Ma, Jirui Wang et al. A single-base change at a splice site in Wx-A1 caused incorrect RNA splicing and gene inactivation in a wheat EMS mutant line. Theoretical and Applied Genetics 132 (2019): 2097-2109. 共同第一作者

（8）Zhong Xiaojuan, Na Lin, Jinjin Ding, Qiang Yang, Jingyu Lan, Huaping Tang, Pengfei Qi et al. Genome-wide transcriptome profiling indicates the putative mechanism underlying enhanced grain size in a wheat mutant. 3 Biotech 11 (2021): 1-16. 第三作者