秦晓春 Xiaochun Qin

长期从事光合膜蛋白结构与功能、光合作用调控机理研究，以提高植物光能利用率，为高光效农业提供理论基础和新途径。研究成果”高等植物光系统I光合膜蛋白超分子复合物晶体结构解析”入选2015年度”中国生命科学领域十大进展”之一，绿藻光系统I结构与功能研究入选”2019年度中国科学十大进展”之一—”破解藻类水下光合作用的蛋白结构和功能”。在Science、Nature Plants、Nature Communications、Cell Discovery等期刊发表第一作者及通讯作者论文三十余篇，主持国家自然科学基金项目5项、山东省自然科学基金重大基础研究项目1项。研究方向：（1）光合膜蛋白结构与功能；（2）光合作用调控机理与高光效农业。

Long engaged in research on the structure and function of photosynthetic membrane proteins and regulatory mechanisms of photosynthesis, aiming to improve plant light energy utilization and provide theoretical foundation and new approaches for high-light-efficiency agriculture. Research achievement “Crystal Structure Analysis of Photosystem I Photosynthetic Membrane Protein Supramolecular Complex in Higher Plants” was selected as one of the “Top Ten Advances in China’s Life Sciences” in 2015, and research on green algae photosystem I structure and function was selected as one of the “Top Ten Scientific Advances in China in 2019” — “Deciphering the Protein Structure and Function of Underwater Photosynthesis in Algae”. Has published over 30 papers as first author and corresponding author in journals such as Science, Nature Plants, Nature Communications, and Cell Discovery. Has led 5 National Natural Science Foundation projects and 1 Shandong Provincial Natural Science Foundation Major Basic Research Project. Research directions: (1) Structure and function of photosynthetic membrane proteins; (2) Regulatory mechanisms of photosynthesis and high-light-efficiency agriculture.

1. Li XX*, Huang GQ*, Zhu LX, Hao CY, Sui S-F**, Qin XC**. (2024) Structure of the red-shifted Fittonia albivenis photosystem I. Nature Communications. 15, 6325
2. Dong SS*, Huang GQ*, Wang CH*, Wang JJ, Sui S-F**, Qin XC** (2022) Structure of the Acidobacteria homodimeric reaction center bound with cytochrome c. Nature Communications.13: 7745.