| 蒙秋妤博士,广西人,讲师,理学博士。她是武汉大学药学专业博士,长期从事抗癌药物的研发及诊断的研究,她的研究方向包括抗癌药物的合成及活性评价、荧光探针的成像及肿瘤诊断、污染暴露与健康监测。 蒙秋妤博士已在Pharmacology & Therapeutics,ACS Sensors,Sensors and Actuators B: Chemical,European Journal of Medicinal Chemistry,Chemical Communications,Analyst等学术刊物发表第一作者或共同第一作者论文5余篇,参与发表论文1余篇,以通讯作者身份发表论文1篇,获批发明专利1项。 |
主要科研成果
1. Anticancer or carcinogenic? The role of estrogen receptor β in breast cancer progression. Kang Shen, Huiguang Yu, Baohua Xie, Qiuyu Meng⁎, Chune Dong⁎, Kun Shen⁎, Hai-Bing Zhou⁎, Pharmacology & Therapeutics, 2023, 242, 108350. (通讯作者,Q1, IF=13.4)
2. Estrogen Receptor β-Targeted Near-Infrared Inherently Fluorescent Probe: A Potent Tool for Estrogen Receptor β Research. Qiuyu Meng1, Baohua Xie1, Huiguang Yu, Kang Shen, Xiangping Deng, Hai-Bing Zhou, Chune Dong. ACS Sensors, 2022, 7(1): 109-115. (Q1, IF=9.618)
3. Estrogen receptor β-targeted hypoxia-responsive near-infrared fluorescence probes for prostate cancer study. Baohua Xie1, Qiuyu Meng1, Huiguang Yu, Kang Shen, Yan Cheng, Chune Dong, Hai-Bing Zhou. European Journal of Medicinal Chemistry, 2022, 238: 114506. (Q1, IF=7.088)
4. Rational design of ERα targeting hypoxia turn-on fluorescent probes with antiproliferative activity for breast cancer. Qiuyu Meng1, Baohua Xie1, Xiaoyu Ma, Zhiye Hu Fuling Zhou, Hai-Bing Zhou, Chune Dong. Chemical Communications, 2020, 56: 10493-10496. (Q2, IF=6.065)
5. Establishment of evaluation criteria for the development of high quality ERα-targeted fluorescent probes. Qiuyu Meng1, Xiaoyu Ma1, Baohua Xie, Xiaofei Deng, Jian Huang, Hai-Bing Zhou, Chune Dong. Analyst, 2020, 145: 5989. (Q2, IF=5.227)
6. Lu Yang1, Qiuyu Meng1, Zhiye Hu, Wentao Ning, Jie Zheng, Chune Dong, Hai-Bing Zhou. Estrogen receptor sensing in living cells by a high affinity turn-on fluorescent probe. Sensors & Actuators: B. Chemical, 2018, 272: 589-597. (Q1, IF=9.221)
7. Zhiye Hu, Lu Yang, Wentao Ning, Chu Tang, Qiuyu Meng, Jie Zheng, Chune Dong, Hai-Bing Zhou. A high-affinity subtype-selective fluorescent probe for estrogen receptor β imaging in living Cells. Chemical Communications, 2018, 54: 3887. (Q2, IF=6.065)
