1)代表性论文
迄今,研究院在PNAS, Nature Communications, Molecular Plant, Plant Biotechnology Journal等期刊共发表论文120余篇,其中部分代表性论文如下:
1)Quancan Hou#, Xueli An#, Biao Ma#, Suowei Wu#, Xun Wei#, Tingwei Yan, Yan Long, Danfeng Zhang, Shuangshuang Liu, Ziwen Li, Ke Xie, Yan Zhou, Lina Zhao, Canfang Niu, Zhenying Dong, Taotao Zhu, Chang Liu, Wei Zhao, Fei Ni, Jinping Li, Daolin Fu, Zhong-Nan Yang, Xiangyuan Wan*. ZmMS1/ZmLBD30-orchestrated transcriptional regulatory networks precisely control pollen exine development. Molecular Plant, 2023, 16, 1321–1338. (TOP1区期刊, SCI-IF: 27.5,封面文章)
2)Yanyong Cao, Juan Ma, Shengbo Han, Mengwei Hou, Xun Wei, Xingrui Zhang, Zhanyuan J. Zhang, Suli Sun, Lixia Ku, Jihua Tang, Zhenying Dong, Zhendong Zhu, Xiaoming Wang, Xiaoxiao Zhou, Lili Zhang, Xiangdong Li, Yan Long*, Xiangyuan Wan*Canxing Duan*. Construction of cell type-specific immunity networks in maize roots conditioning fungal invasion. Plant Biotechnology Journal, 2023, https://doi.org/10.1111/pbi.14097. (TOP1区期刊, SCI-IF: 13.8)
3)Xueli An, Shaowei Zhang, Yilin Jiang, Xinze Liu, Chaowei Fang, Jing Wang, Lina Zhao, Quancan Hou, Juan Zhang, and Xiangyuan Wan*. CRISPR/Cas9-based genome editing of 14 lipid metabolic genes reveals a sporopollenin metabolon ZmPKSB-ZmTKPR1-1/-2 required for pollen exine formation in maize. Plant Biotechnology Journal, 2023, PBI-00598-2023.(已接收) (TOP1区期刊,SCI IF:13.8)
4)Yan Long, Cheng Wang, Chang Liu, Huangai Li, Aqing Pu, Zhenying Dong, Xun Wei and Xiangyuan Wan*. Molecular mechanisms controlling grain size and weight and their biotechnological breeding applications in maize and other cereal crops. Journal of Advanced Research, 2023, JARE-D-23-01079. (已接收)(TOP1,SCI IF:10.7)
5)Jiapeng Xing, Mingcai Zhang, Xun Wei*, Juan Zhang* and Xiangyuan Wan*. Plant nitrogen availability and crosstalk with phytohormones signalings and their biotechnology breeding application in crops.Plant Biotechnology Journal, 2023, 21, 1320–1342. (TOP1区期刊,SCI IF:13.8)
6)Ziwen Li, Shuangshuang Liu, Taotao Zhu, Jing Wang, Meng Sun, Xueli An, Xun Wei, Cuimei Liu, Jinfang Chu, Xiangyuan Wan*. Jasmonic acid-mediated stressful responses share the molecular mechanism underlying male sterility induced by deficiency of ZmMs33 in maize.Crop Journal, 2023, https://doi.org/10.1016/ j.cj.2023.06.002. (TOP1,SCI IF: 6.6)
7)Chang Liu, Tian Ma, Dingyang Yuan, Yang Zhou, Yan Long, Ziwen Li, Zhenying Dong, Meijuan Duan, Dong Yu, Yizhi Jing, Xiaoyue Bai, Yanbo Wang, Quancan Hou, Shuangshuang Liu, Jin-Song Zhang, Shou-Yi Chen, Dayong Li, Xue Liu, Zhikang Li, Wensheng Wang, Jinping Li, Xun Wei*, Biao Ma* andXiangyuan Wan*. The OsEIL1-OsERF115-target gene regulatory module controls grain size and weight in rice. Plant Biotechnology Journal, 2022, 20: 1470-1486.(TOP1区期刊,SCI IF:13.8)
8)Xinze Liu, Yilin Jiang, Suowei Wu, Jing Wang, Chaowei Fang, Shaowei Zhang, Rongrong Xie, Lina Zhao, Xueli An*, Xiangyuan Wan*. The ZmMYB84-ZmPKSB regulatory module controls male fertility through modulating anther cuticle — pollen exine trade-off in maize anthers. Plant Biotechnology Journal, 2022, 20:2342-2356(TOP1,SCI IF:13.8)
9)Zhibiao Wang, David R. Nelson,Juan Zhang*, Xiangyuan Wan*, and Reuben J. Peters*. Plant (di)terpenoid evolution: From pigments to hormones and beyond. Natural Product Reports, 2022, 40: 452-469.(TOP1,SCI IF: 11.9)
10)Chaowei Fang#, Suowei Wu#, Canfang Niu, Quancan Hou, Xueli An, Xun Wei, Lina Zhao, Yilin Jiang, Xinze Liu, Xiangyuan Wan*. Triphasic Regulation of ZmMs13 Encoding an ABCG Transporter Is Sequentially Required for Callose Dissolution, Pollen Exine and Anther Cuticle Formation in Maize. Journal of Advanced Research, 2023, 49,15-30.(TOP1,SCI IF:10.7)
11)Xun Wei*, Qianqian Liu, Aqing Pu, Shutong Wang, Feifei Chen, Lei Zhang, Yong Zhang, Zhenying Dong, Xiangyuan Wan*. Knowledge Mapping of Bioeconomy: A Bibliometric Analysis. Journal of Cleaner Production, 2022, 373, 133824.(TOP1,SCI IF: 11.1)
12)Yan Long, Xun Wei, Suowei Wu, Nana Wu, Qing X. Li, Bin Tan* and Xiangyuan Wan*. Plant Molecular Farming, a Tool for Functional Food Production. Journal of Agricultural and Food Chemistry, 2022, 70, 2108−2116. (TOP1,SCI IF: 6.1)
13)Ziwen Li#, Taotao Zhu#, Shuangshuang Liu#, Lina Zhao, Xueli An, Yan Long, Xun Wei, Juan Zhang, Zhenying Dong, Xiangyuan Wan*. ZmMs33 promotes anther elongation via modulating cell elongation regulators, metabolic homeostasis, and cell wall remodeling in maize. The Crop Journal, 2023,11, 361-373. (TOP1,SCI IF: 6.6)
14)Xiangyuan Wan*, Suowei Wu, and Xiang Li. (2021). Breeding with dominant genic male-sterility genes to boost crop grain yield in the post-heterosis utilization era. Molecular Plant 14, 531-534. (TOP1, SCI IF:27.5).
15)Jiang, Y#., An, X.#, Li, Z.#, Yan, T., Zhu, T., Xie, K., Liu, S., Hou, Q., Zhao, L., Wu, S., Liu, X., Zhang, S., He, W., Li, F., Li, J., Wan, X*. (2021). CRISPR/Cas9-based discovery of maize transcription factors regulating male sterility and their functional conservation in plants. Plant Biotechnology Journal, 19, 1769-1784. (TOP1,SCI IF: 13.8,ESI高被引论文)
16)Zhang, S.#, Wu, S.#, Niu, C.#, Liu, D., Yan, T., Xie, K., Li, Z., Wang, Y., Zhao, W., Dong, Z., Ma, B., An, X., Li, J., Wan, X*. (2021). ZmMs25 encoding a plastid-localized fatty acyl reductase is critical for anther and pollen development in maize. Journal of Experimental Botany 72, 4298-4318. (TOP1,SCI IF: 6.9)
17)Liu, S., Li, Z., Wu, S.*, and Wan, X.* The essential roles of sugar metabolism for pollen development and male fertility in plants. The Crop Journal 2021, 9:1223-1236. (TOP1,SCI IF:6.6)
18)Li, Z.#, Zhu, T.#, Liu, S.#, Jiang, Y., Liu, H., Zhang, Y., Xie, K., Li, J., An, X.*, and Wan, X.*. Genome-wide analyses on transcription factors and their potential microRNA regulators involved in maize male fertility. The Crop Journal. 2021, 9: 1248-1262 (TOP1,SCI IF:6.6)
19)Wan, X., Wu, S., Xu, Y. Male sterility in crops: application of human intelligence to natural variation, The Crop Journal, 2021, 9(6):1219-1222 (TOP1, SCI IF: 6.6)
20)Yong Zhang#, Xun Wei#, Qian Sun, Weiyi Qian, Xinjie Liu, Jinping Li, Yan Long*, and Xiangyuan Wan* Different Types and Functional Effects of Probiotics on Human Health through Regulating Glucose Homeostasis. Journal of Agricultural and Food Chemistry, 2021, 69(49): 14781-14791 (TOP1, SCI IF: 6.2)
21)Xiangyuan Wan*, Suowei Wu#, Ziwen Li, Xueli An, Youhui Tian. Lipid Metabolism: Critical Roles in Male Fertility and Other Aspects of Reproductive Development in Plants. Molecular Plant, 2020, 13, 955-983. (TOP1,SCI IF: 27.5,ESI高被引论文)
22)Taotao Zhu#, Ziwen Li#, Xueli An#, Yan Long#, Xiaofeng Xue, Ke Xie, Biao Ma, Danfeng Zhang, Canfang Niu, Yijian Guan, Zhenying Dong, Suowei Wu, Jinping Li, Weiwei Jin, and Xiangyuan Wan*. Normal Structure and Function of Endothecium Chloroplasts Maintained by ZmMs33-mediated Membrane Lipid Biosynthesis in Tapetal Cells Are Critical for Anther Development in Maize. Molecular Plant, 2020, 13, 1624–1643 (TOP1,SCI IF: 27.5, 封面文章)
23)Kai-Xuan Duan#, He Zhao#, Biao Ma#*, Xiang-Yuan Wan, Tie-Gang Lu, Shou-Yi Chen*, Jin-Song Zhang*. Histidine kinase MHZ1/OsHK1 acts immediately downstream of ethylene receptors to regulate root growth in rice. Nature Communications, 2020, 11: 518 (TOP1,SCI IF: 16.6)
24)Xueli An#, Biao Ma#, Meijuan Duan#, Zhenying Dong#, Ruogu Liu, Dingyang Yuan, Quancan Hou, Suowei Wu, Danfeng Zhang, Dongcheng Liu, Dong Yu, Yuwen Zhang, Ke Xie, Taotao Zhu, Ziwen Li, Simiao Zhang, Youhui Tian, Chang Liu, Jinping Li, Longping Yuan*, and Xiangyuan Wan*. Molecular Regulation of ZmMs7 Required for Maize Male Fertility and Development of a Dominant Male-sterility System in Multiple Species. Proc Natl Acad Sci USA, 2020, 117: 23499–23509 (TOP1,SCI IF: 11.9)
25)Canfang Niu, Xiangyuan Wan. Engineering a Trypsin-Resistant Thermophilic α-Galactosidase to Enhance Pepsin Resistance, Acidic Tolerance, Catalytic Performance, and Potential in the Food and Feed Industry. Journal of Agricultural and Food Chemistry. 2020, 68(39): 10560–10573 (TOP1, SCI IF: 6.1)
26)Xueli An#, Zhenying Dong#, Youhui Tian#, Ke Xie #, Suowei Wu, Taotao Zhu, Danfeng Zhang, Yan Zhou, Canfang Niu, Biao Ma, Quancan Hou, Jianxi Bao, Simiao Zhang, Ziwen Li, Yanbo Wang, Tingwei Yan, Xiaojing Sun, Yuwen Zhang, Jinping Li, Xiangyuan Wan*. ZmMs30 Encoding a Novel GDSL Lipase is Essential for Male Fertility and Valuable for Hybrid Breeding in Maize. Molecular Plant, 2019, 12(3), 343–359. (TOP1, SCI IF:27.5,封面文章,ESI高被引论文).
27)Xiangyuan Wan#*, Suowei Wu#, Ziwen Li, Zhenying Dong, Xueli An, Biao Ma, Youhui Tian, Jinping Li. Maize Genic Male-sterility Genes and Their Applications in Hybrid Breeding: Progress and Perspectives. Molecular Plant, 2019, 12(3), 321-342. (TOP1, SCI IF:27.5,ESI高被引论文).
28)Qian Sun, Yong Zhang, Ziwen Li, Hai Yan, Jinping Li, Xiangyuan Wan* Mechanism analysis of improved glucose homeostasis and cholesterol metabolism in high-fat-induced obese mice treated with La-SJLH001 via transcriptomics and culturomics. 2019, Food & Function, 10(6):3556-3566 (TOP1, SCI IF: 6.1)
29)Taotao Zhu#, Suowei Wu#, ..., Xiangyuan Wan*. Genome-wide analysis of maize GPAT gene family and cytological characterization and breeding application of ZmMs33/ZmGPAT6 gene. Theoretical and Applied Genetics, 2019, 132: 2137–2154.(TOP1,SCI IF: 5.4)
30)DanfengZhang#, Suowei Wu#, Xueli An#, …, Xiangyuan Wan*. Construction of a multi-control sterility system for a maize male-sterile line and hybrid seed production based on the ZmMs7 gene encoding a PHD-finger transcription factor, Plant Biotechnology Journal, 2018, 16: 459-471(TOP1, SCI IF:13.8,封面文章, ESI高被引论文).
31)Ke Xie#,Suowei Wu#, Ziwen Li#, …, Xiangyuan Wan*(万向元). Map‑based cloning and characterization of Zea mays male sterility33 (ZmMs33) gene, encoding a glycerol‑3‑phosphate acyltransferase. Theoretical and Applied Genetics, 2018, 131: 1363-1378.(TOP1,SCI IF: 5.4)
32)Xun Wei#, Yan long#, Chenchen Yi, Aqing Pu, Quancan Hou, Chang Liu, Yilin Jiang, Suowei Wu, Xiangyuan Wan*. Bibliometric Analysis of Functional Crops and Nutritional Quality: Identification of Gene Resources to Improve Crop Nutritional Quality through Gene Editing Technology. Nutrients, 2023, 15, 373 (TOP2, SCI IF: 6.0)
33)Chaowei Fang#, Suowei Wu#, Ziwen Li, Shuangshuang Pan, Yuru Wu, Xueli An, Yan Long, Xun Wei*, Xiangyuan Wan*. A Systematic Investigation of Lipid Transfer Proteins Involved in Male fertility and Other Biological Processes in Maize, Rice and Arabidopsis. International Journal of Molecular Sciences, 2023, 24, 1660 (TOP2, SCI IF: 5.6)
34)Cheng Wang#, Huangai Li#, Yan Long, Zhenying Dong, Jianhui Wang, Chang Liu, Xun Wei* and Xiangyuan Wan*. A Systemic Investigation of Genetic Architecture and Gene Resources Controlling Kernel Size-related Traits in Maize. International Journal of Molecular Sciences, 2023, 24, 1025 (TOP2, SCI IF: 5.6)
35)Wu Suowei*, Fang Chaowei#, Li Ziwen, Wang Y, Pan S, Wu Y, et al. ATP-Binding Cassette G Transporters and Their Multiple Roles Especially for Male Fertility in Arabidopsis, Rice and Maize. International Journal of Molecular Sciences, 2022, 23, 9304. (TOP2,SCI IF: 5.6)
36)Jianxi Bao, Yuexin Gao, Yannan Li, Suowei Wu, Jinping Li, Zhenying Dong*, Xiangyuan Wan*. Genetic Analysis and Fine Mapping of ZmGHT1 Conferring Glufosinate Herbicide Tolerance in Maize (Zea mays L.). International Journal of Molecular Sciences, 2022, 23,11481. (TOP2,SCI IF: 5.6)
37)Quancan Hou, Tianye Zhang, Yuchen Qi, Zhenying Dong*, Xiangyuan Wan*. Epigenetic Dynamics and Regulation of Plant Male Reproduction. International Journal of Molecular Sciences, 2022, 23,10420. (TOP2,SCI IF: 5.6)
38)Jiang, Y. #; Li, Z. #; Liu, X.; Zhu, T.; Xie, K.; Hou, Q.; Yan, T.; Niu, C.; Zhang, S.; Yang, M.; Xie, R., Wang, J., Li, J., An, X.*, Wan, X* ZmFAR1 and ZmABCG26 Regulated by microRNA Are Essential for Lipid Metabolism in Maize Anther. International Journal of Molecular Sciences, 2021, 22, 7916. (TOP2, SCI IF: 5.6)
39)Lu Lu, Quancan Hou†*, Linlin Wang, Tianye Zhang, Wei Zhao,Tingwei Yan,Lina Zhao, Jinping Li, Xiangyuan Wan* Genome-Wide Identification and Characterization of Polygalacturonase Gene Family in Maize (Zea mays L.). International Journal of Molecular Sciences, 2021, 22, 10722. (TOP2, SCI IF:5.6)
40)Quancan Hou*, Xiangyuan Wan* Epigenome and Epitranscriptome: Potential Resources for Crop Improvement. International Journal of Molecular Sciences, 2021, 22, 12912. (TOP2, SCI IF: 5.6)
41)Yuwen Zhang, Ziwen Li, Biao Ma, Quancan Hou, Xiangyuan Wan. Phylogeny and Functions of LOB Domain Proteins in Plants. International Journal of Molecular Sciences. 2020; 21(7): 2278 (TOP2, SCI IF: 5.6)
42)Yanbo Wang#, Dongcheng Liu#, Youhui Tian#, Suowei Wu, Xueli An, Zhenying Dong, Simiao Zhang, Jianxi Bao, Jinping Li and Xiangyuan Wan* Map-based cloning, phylogenetic and microsynteny analyses of ZmMs20 gene regulating male fertility in maize. International Journal of Molecular Sciences, 2019, 20(6), 1411 (TOP2, SCI IF: 5.6)
43)Ziwen Li#, Xueli An#, Taotao Zhu, Tingwei Yan, Suowei Wu, Youhui Tian, Jinping Li, Xiangyuan Wan*. Discovering and Constructing ceRNA-miRNA-Target Gene Regulatory Networks during Anther Development in Maize. International Journal of Molecular Sciences, 2019, 20(14), 3480 (TOP2, SCI IF: 5.6)
44)Yong Zhang, Qian Sun, Ziwen Li, Hongyuan Wang, Jinping Li, Xiangyuan Wan* Fermented soybean powder containing Bacillus subtilis SJLH001 protects against obesity in mice by improving transport function and inhibiting angiogenesis, Journal of Functional Foods,2019, 59: 60-70 (TOP2, SCI IF:5,6)
45)Shuai Wang#, Huangai Li#, Zhenying Dong, Cheng Wang, Xun Wei*, Yan Long*, Xiangyuan Wan*. Genetic structure and molecular mechanism underling the stalk lodging traits in maize (Zea may L.). Computational and Structural Biotechnology Journal, 2023, 21: 485-494CSBJ-D-22-00932, accepted (2区,SCI IF: 6.0)
46)Xinze Liu, Shaowei Zhang, Yilin Jiang, Tingwei Yan, Chaowei Fang, Quancan Hou, Suowei Wu, Ke Xie, Xueli An* and Xiangyuan Wan*. Use of CRISPR/Cas9-Based Gene Editing to Simultaneously Mutate Multiple Homologous Genes Required for Pollen Development and Male Fertility in Maize. Cells, 2022, 11, 439. (2区,SCI IF: 6.0)
47)Ziwen Li#, Shuangshuang Liu#, Taotao Zhu#, Xueli An, Xun Wei, Juan Zhang, Suowei Wu, Zhenying Dong, Yan Long* and Xiangyuan Wan*. Loss-function of Male Sterile Gene ZmMs33/ZmGPAT6 Results in Severely Oxidative Stress and SnRK1-mediated Metabolic Reprogramming in Maize Anthers. Cells, 2022, 11, 2318. (2区,SCI IF: 6.0)
48)Yanbo Wang, Jianxi Bao, Xun Wei, Suowei Wu, Chaowei Fang, Ziwen Li, Yuchen Qi, Yuexin Gao, Zhenying Dong* and Xiangyuan Wan*. Genetic Structure and Molecular Mechanisms Underlying the Formation of Tassel, Anther, and Pollen in the Male Inflorescence of Maize (Zea mays L.). Cells, 2022, 11, 1753. (2区,SCI 6.0)
49)Quancan Hou, Wei Zhao, Lu Lu, Linlin Wang, Tianye Zhang, Binbin Hu, Tingwei Yan, Yuchen Qi, Fan Zhang, Nan Chao, Dorothea Bartels* and Xiangyuan Wan*. Overexpression of HLH4 Inhibits Cell Elongation and Anthocyanin Biosynthesis in Arabidopsis thaliana. Cells, 2022, 11, 1087. (2区,SCI IF: 6.0)
50)Xun Wei*, Aqing Pu, Qianqian Liu, Quancan Hou, Yong Zhang, Xueli An, Yan Long, Yilin Jiang, Zhenying Dong, Suowei Wu and Xiangyuan Wan*. The Bibliometric Landscape of Gene Editing Innovation and Regulation in the Worldwide. Cells, 2022, 11,2682.(2区,SCI IF: 6.0)
51)Rui Hu, Yong Zhang, Weiyi Qian, Yan Leng, Yan Long, Xinjie Liu, Jinping Li, Xiangyuan Wan* and Xun Wei*. Pediococcus acidilactici Promotes the Longevity of C. elegans by Regulating the Insulin/IGF-1 and JNK/MAPK Signaling, Fat Accumulation and Chloride Ion. Frontiers in Nutrition, 2022, 9, 821685. (2区,SCI IF: 5.0)
52)Xun Wei#, Wei Yang#, Jianhui Wang, Yong Zhang, Yaxuan Wang, Yan Long, Bin Tan*, Xiangyuan Wan*. Health Effects of Whole Grains: A Bibliometric Analysis. Foods. 2022, 11, 4094 (2区,SCI IF: 5.2)
53)Quancan Hou, Tianye Zhang, Kangtai Sun, Tingwei Yan, Linlin Wang, Lu Lu, Wei Zhao, Yuchen Qi, Yan Long*, Xun Wei* and Xiangyuan Wan*. Mining of Potential Gene Resources for Breeding Nutritionally Improved Maize. Plants, 2022, 11, 627. (2区,SCI IF: 4.5)
54)Quancan Hou*, Tianye Zhang, Wei Zhao, Linlin Wang, Yuchen Qi, Dorothea Bartels*. Genetic background and cis-organization regulate ALDH7B4 gene expression in Eutrema salsugineum: a promoter analysis case study. Planta. 2022, 255, 52 (2区,SCI IF: 4.3)
55)Weiyi Qian, Yong Zhang, Yan Long, Wei Yang, Rui Hu, Jinping Li, Yan Leng, Xinjie Liu, Qing X. Li, Xiangyuan Wan*, Xun Wei*. Probiotic Lactobacillus brevis CLB3 prevents azoxymethane/dextran sulfate sodium induced colon carcinogenesis in mice by reducing amino acid transport and IL-17A levels and repressing the IL-6/AKT/p-STAT3 signaling pathway. Food Quality and Safety, 2022, 6,1-14. (SCI IF: 5.6)
56)Xun Wei*, Jie Luo, Aqing Pu, Qianqian Liu, Lei Zhang, Suowei Wu, Yan Long, Yan Leng, Zhenying Dong, Xiangyuan Wan*. From Biotechnology to Bio-economy: A Study of Dynamics and Pathways. Sustainability. 2022, 14, 10413 (SCI IF: 3.9)
57)Ziwen Li, Xiangyuan Wan* Long-term evolutionary dynamics of DNA methylations in protein-coding genes. Gene, 2018, 677: 96-104 (SCI IF: 3.5)
58)Jiang Yilin, Sun Kangtai, An Xueli*; CRISPR/Cas System: Applications and Prospects for Maize Improvement, ACS Agricultural Science & Technology, 2022, 2, 174-183. (SCIE:IF=2.5)
59)Xun Wei*, Aqing Pu, Qianqian Liu, Yan Leng, Zhongwen Fu, Feiming Wu, Xueli An, Yan Long*; Commercialization and Supervision Policies of Gene Edited Crops in China and Other Main Countries, ACS Agricultural Science & Technology, 2022, 2,167-173. (SCIE:IF=2.5)
60)殷芳冰, 李雅楠, 鲍建喜, 马雅杰, 秦文萱, 王锐璞, 龙艳, 李金萍, 董振营*, 万向元*. 玉米雌穗产量相关性状全基因组关联分析与候选基因鉴定. 作物学报, 2023, 49(2): 377-391
61)王锐璞, 董振营, 高悦欣, 鲍建喜, 殷芳冰, 李金萍, 龙艳*, 万向元*. 玉米籽粒淀粉含量全基因组关联分析和候选基因预测[J]. 作物学报, 2023, 49(1): 140-152
62)马雅杰, 鲍建喜, 高悦欣, 李雅楠, 秦文萱, 王彦博, 龙艳, 李金萍, 董振营*, 万向元*. 玉米株高和穗位高性状全基因组关联分析[J].作物学报,2022, https://kns.cnki.net/kcms/detail/11.1809.S.20220518. 1923.002.html
63)蒲阿庆, 罗 洁, 冷 燕, 郭松豪, 张宏翔, 吴锁伟, 万向元*, 魏珣*. 生物经济背景下我国农业高质量发展路径研究. 世界科技研究与发展,2022, 44(6): 778-789
64)何伟, 朱美睿, 单海艳, 江易林, 安学丽*, 万向元*; 促进植物高效遗传转化的发育调节因子及其在玉米中的应用进展, 中国生物工程杂志, 2022, 42(8): 85-98
65)秦文萱, 鲍建喜,王彦博, 马雅杰, 龙艳, 李金萍, 董振营*, 万向元*, 玉米叶夹角性状的全基因组关联分析与关键位点优异等位变异挖掘[J]. 作物学报, 2022, 11: 2691-2705
66)蒲阿庆,刘倩倩,郭松豪,张宏翔,万向元*,魏珣*. 全球生物经济演进规律与我国生物经济发展对策建议[J]. 中国生物工程杂志,2022, 42(5): 146-153
67)冷 燕, 孙康泰, 刘倩倩, 蒲阿庆, 李 翔, 万向元*,魏珣*. 全球基因编辑作物监管趋势研究[J]. 中国生物工程杂志, 2021, 41(12): 24-29
68)秦文萱,刘鑫,龙艳,董振营*,万向元*. 玉米叶夹角形成的遗传基础与分子机理解析研究进展. 中国生物工程杂志, 2021, 41(12): 74-87
69)尹泽超,王晓芳,龙艳,董振营*,万向元*. 玉米穗腐病抗性鉴定、遗传分析与分子机理研究进展. 中国生物工程杂志, 2021, 41(12): 103-115
70)王彦博,魏佳,龙艳,董振营*,万向元*. 玉米雄穗性状遗传结构与形成分子机理研究进展. 中国生物工程杂志, 2021, 41(12): 88-102
71)殷芳冰,王成,龙艳,董振营*,万向元*. 玉米雌穗性状遗传分析与形成机理研究进展. 中国生物工程杂志, 2021, 41(12): 30-46
72)王锐璞#,董振营#,高悦欣,龙艳*,万向元*. (2021) 玉米籽粒淀粉含量遗传基础与调控机理研究进展. 中国生物工程杂志, 2021, 41(12): 47-60
73)马雅杰,高悦欣,李依萍,龙艳,董振营*,万向元*. (2021) 玉米株高和穗位高的遗传基础与分子机理研究进展. 中国生物工程杂志, 2021, 41(12): 74-87
74)杨梦冰,江易林,祝蕾,安学丽*,万向元*, CRISPR/Cas植物基因组编辑技术及其在玉米中的应用。中国生物工程杂志,2021, 41(12): 4-12
75)何伟,祝蕾,刘欣泽,安学丽*,万向元* , 玉米遗传转化与商业化转基因玉米开发研究进展。中国生物工程杂志,2021, 41(12): 13-23
76)金 迪, 王冬至, 王焕雪, 李润枝, 陈树林, 阳文龙, 张爱民, 刘冬成*, 詹克慧*. 小麦芒长抑制基因B2 的精细定位与候选基因分析. 作物学报,2019,45(6): 807-817
77)吴锁伟,万向元*,利用生物技术创建主要作物雄性不育杂交育种和制种的技术体系,中国生物工程杂志,2018, 38(1): 78-87
78)田有辉,万向元*,玉米花药发育的分析方法与研究进展,中国生物工程杂志,2018, 38(1): 88-99
79)柳双双,吴锁伟,饶力群,万向元*,玉米细胞核雄性不育的分子机制研究,中国生物工程杂志,2018, 38(1): 100-107
80)孙倩,万向元*. 益生菌缓解高血脂和高血糖的研究进展,河南工业大学学报(自然科学版),2018, 39(6): 125-132
2)发明专利
迄今,共申请国家发明专利32项,授权24项。
1. 专利名称:植物花粉发育调控基因Ms1及其编码蛋白,专利号:ZL201410381072.5,发明人:万向元、吴锁伟、谢科等
2. 专利名称:一种控制玉米雄性生育力的ZmMs7基因序列及其编码蛋白,专利号: ZL201410338212.0,发明人:万向元、吴锁伟、谢科等
3. 专利名称:一种玉米花粉减数分裂后发育调控基因Ms30的DNA 序列及其编码蛋白,专利号:ZL201410703778.9,发明人:万向元、吴锁伟、谢科等
4. 专利名称:基于Ms1基因构建的介导玉米雄性生育力的多控不育载体及其应用,专利号:ZL201510298173.0,发明人:万向元、吴锁伟、谢科等
5. 专利名称:一种基于Ms7基因构建的多控不育表达载体及其用于保持和繁殖玉米隐性核不育系的方法,专利号:ZL201510301333.2,发明人:万向元、谢科、吴锁伟等
6. 专利名称:一种基于Ms30基因建立的玉米雄性不育系保持和繁殖的方法,专利号: ZL201510300778.9,发明人:万向元、谢科、吴锁伟等
7. 专利名称:利用p5126-ZmMs1D构建体创制玉米显性核雄性不育系及其育种制种应用方法 ,专利号:ZL201811451837.2,发明人:万向元、谢科、张丹凤等
8. 专利名称:利用p5126-ZmMs1M构建体创制玉米显性核雄性不育系及其育种制种应用方法,专利号:ZL201811449084.1,发明人:万向元、吴锁伟、张丹凤等
9. 专利名称:利用p5126-ZmMs7M构建体创制玉米显性核雄性不育系及其育种制种应用方法,专利号:ZL201811450364.4,发明人:万向元、张丹凤、吴锁伟等
10. 专利名称:一种具有减脂等功能的纳豆芽孢杆菌Bn-SJLH001益生作用及其应用,专利号: ZL201811192859.1,发明人:万向元、张勇、孙倩等
11. 专利名称:一种具有调节血糖和胆固醇水平等益生功能的嗜酸乳杆菌La-SJLH001及其应用,专利号:ZL201811177408.0,发明人:万向元、孙倩、张勇等
12. 专利名称:玉米隐性核雄性不育突变基因ms30的功能标记及其应用,专利号:ZL201810867572.8,发明人:万向元、安学丽、谢科等
13. 专利名称:玉米隐性核雄性不育突变基因ms33的功能标记及其应用,专利号:ZL201810998256.4,发明人:万向元、董振营、安学丽等
14. 专利名称:玉米隐性核雄性不育突变基因ms20新等位基因的发现及其功能标记的开发与应用,专利号:ZL201811225610.6,发明人:万向元、刘冬成、张思淼等
15. 专利名称:利用Ubi-ZmMs1创制矮杆玉米自交系的方法与应用,专利号: ZL201910011868.4,发明人:万向元、安学丽、吴锁伟等
16. 专利名称:雄性不育基因ZmbHLH122及其在创制玉米雄性不育系中的应用,专利号: ZL202110272020.4,发明人:万向元,江易林,安学丽等
17. 专利名称:利用人工突变创制玉米bhlh51雄性不育系,专利号:ZL202110272184.7,发明人:万向元,刘欣泽,安学丽等
18. 专利名称:雄性不育基因ZmMYB84及其在创制玉米雄性不育系中的应用,专利号:ZL202110272146.1,发明人:万向元,颜廷玮,安学丽等
19. 专利名称:雄性不育基因ZmMYB33及其在创制玉米雄性不育系中的应用,专利号:ZL202110272228.6,发明人:万向元,朱涛涛,安学丽等
20. 专利名称:雄性不育基因ZmTGA9及其在创制玉米雄性不育系中的应用,专利号: ZL202110272890.1,发明人:安学丽,张少伟,江易林等
21. 专利名称:雄性不育基因ZmTGA10及其在创制玉米雄性不育系中的应用,专利号:ZL202110272886.5,发明人:安学丽,谢科,江易林等
22. 专利名称:雄性不育基因ZmPHD11及其在创制玉米雄性不育系中的应用,专利号:ZL202110272905.4,发明人:李金萍,侯全璨,谢科等
23. 专利名称:雄性不育基因ZmTKPR1及其在创制玉米雄性不育系中的应用,专利号: ZL202110464871.9,发明人:安学丽,杨梦冰,刘欣泽等
24. 专利名称:降解聚苯乙烯塑料的铜绿假单胞菌制剂及其制备与应用,专利号:ZL 202210030372.3,授权公告日2022-04-19,个人排序:刘晓璐,陆旺,姚舜禹,闫海,万向元,汪维俊,刘欣洁,李金萍。
3)科研奖励
近年来,研究院共获得北京市技术发明一等奖、中国专利银奖、中科科协优秀论文奖、大北农科技奖、中国科协先导技术奖等省部级科研奖励10项。此外,获中国作物学会优秀博士论文奖等个人奖6项。具体如下:
1. 2023年,2022年度北京市技术发明一等奖:玉米新型育种和制种技术及其应用,获奖人:万向元、陈化榜、谢传晓、金危危、李玉玲、黄西林、吴锁伟、安学丽、魏珣、龙艳等
2. 2021年,第二十二届中国专利银奖:一种基于Ms7基因构建的多控不育表达载体及其用于保持和繁殖玉米隐性核不育系的方法(ZL201510301333.2),获奖人:万向元,谢科,吴锁伟,安学丽等;
3. 2020年,第五届中国科协优秀科技论文奖:ZmMs30 Encoding a Novel GDSL Lipase is Essential for Male Fertility and Valuable for Hybrid Breeding in Maize. Molecular Plant, 2019, 12(3), 343–359.获奖人:万向元,安学丽,董振营,田有辉,谢科,吴锁伟等。
4. 2022年,第七届中国科协优秀科技论文奖:Normal Structure and Function of Endothecium Chloroplasts Maintained by ZmMs33-Mediated Lipid Biosynthesis in Tapetal Cells Are Critical for Anther Development in Maize,获奖人:万向元、朱涛涛、安学丽、李紫文等;
5. 2022年,大北农科技奖二等奖:三种玉米新型雄性不育技术体系创新与应用测试,获奖人:万向元、安学丽、吴锁伟、张丹凤、谢科等;
6. 2022年,2021年“科创中国”先导技术:玉米新型雄性不育技术体系创新与应用测试,获奖人:万向元等
7. 2021年,获2020年中国产学研合作创新成果奖二等奖:玉米育种技术创新与品种推广应用,获奖人:万向元、李玉玲、安学丽、吴锁伟、谢科、董永彬、张文学、林峰、李翔、李金萍;
8. 2021年,中国生产力促进(创新发展)奖二等奖:玉米分子育种与新品种推广应用,获奖人:万向元、吴锁伟、安学丽、谢科等
9. 2021年,中国产学研合作创新成果奖优秀奖:新型功能性益生菌定向育种与健康食品开发及产业化,获奖人:万向元,陈历俊,张勇等;
10. 2020年,北京科技大学2019年度十大科学进展: 玉米新型雄性不育技术体系建立的重要进展及应用测试,获奖人:万向元,安学丽,吴锁伟等;
11. 2018年,中国作物学会优秀博士论文奖,获奖人:张丹凤(导师:万向元);
12. 2021年,中国生产力促进奖(服务精英奖),获奖人:龙艳;
13. 2021年,中国生产力促进奖(服务精英奖),获奖人:安学丽;
14. 2021年,中国科技产业化促进会科学技术奖个人贡献奖,获奖人:安学丽;
15. 2022年,国际1st Edition of International Academic Awards 的最佳研究奖(BEST RESEARCHER AWARD),获奖人:魏珣;
16. 2022年;中国作物学会优秀博士论文奖,获奖人:朱涛涛(导师:万向元)。