目前正在进行的油菜分子育种项目甘蓝型油菜:
1.油菜花瓣不脱落,角果不易开裂的新种质的创新及分子育种。
2.油菜低温萌发,耐迟播,早熟的种质创新及分子育种。
3.鱼油油菜(高亚麻酸)种质创新及分子育种。
学习经历:
1986-1990年于西北农业大学,本科,农学专业
1998-2000年于西北农林科技大学攻读生物化学与分子生物学硕士学位
2000-2004年攻读西北农林科技大学植物学博士学位,论文在中科院遗传与发育生物学研究所完成。
2006-2010年江苏省农业科学研究院博士后研究
工作经历:
1990-2004年于陕西省杂交油菜研究中心
2004-今江苏大学生命科学研究院工作
2009, 8-2010, 3在英国 CNAP (Centre for Novel Agricultural Products), The University of York, Professor Ian A Graham 实验室访问学者,从事油菜脂类合成代谢的研究工作。
社会服务:
“国家重点研发”,“转基因生物新品种培育重大专项”,“国家自然基金”评审专家,加拿大NSERC评审专家,以色列科学基金(ISF)评审专家;江苏省生物学联盟常务理事,中国油料作物学会理事,江苏省植物生理学会理事,国际学术期刊(SCI):Nucleic Acids Research,The Plant Journal, Plant Physiology, Plant biotechnology Journal, Biotechnology for Biofuels and Bioproducts, Scientific Report, Frontiers in Plant Science, Plant Science,Acta Physiologiae Plantarum, Plant reproduction, International Journal of Biochemistry Research & Review, Journal of Agricultural Science and Technology,Journal of Integrative Agriculture等审稿人,国内学术期刊:中国农业科学,中国油料作物学报等杂志审稿人。
发表文章:
2024年
Wang Y, Wang J, Sarwar R, Zhang W, Geng R, Zhu K-M and Tan X-L (2024) Research progress on the physiological response and molecular mechanism of cold response in plants. Front. Plant Sci. 15:1334913. doi: 10.3389/fpls.2024.1334913
Kexin Yu , Yijie Zhang , Xiaoyuan Fei , Luyue Ma , Rehman Sarwar, Xiaoli Tan and Zheng Wang. BnaWRKY75 positively regulates the resistance against Sclerotinia sclerotiorum in ornamental Brassica napus2024. Horticultural Plant Journal, 10 (3): 784e796.
Yijie Zhang, Zhuo Chen, Wenhua Zhang, Rehman Sarwar, Zheng Wang , Xiaoli Tan. Genome-wide analysis of the NYN domain gene family in Brassica napus and its function role in plant growth and development. 2024, Gene, ( 930),148864
Yu, J., Xue, Y.-X., Sarwar, R., Wei, S.-H., Geng, R., Zhang, Y.-F., Mu, J.-X., & Tan, X.-L. The BnaBPs gene regulates flowering time and leaf angle in Brassica napus. 2024, Plant Direct, 8(10), e70018. https://doi.org/10.1002/pld3.70018
Li-Na Ding, Ying-Hui Hu, Teng Li, Ming Li, Yue-Tao Li, Yuan-Zhen Wu, Jun Cao, Xiao-Li Tan*. BnGLIP1.C07 functions downstream of BnbZIP44 to modulate Sclerotinia sclerotiorum resistance in Brassica napus.2024, Plant Physiology, https://doi.org/10.1093/plphys/kiae500
Sarwar, R., Yu, J., Zekraoui, M., Wang, Y., Zhu, K. & Tan, X.-L*. Unraveling the Molecular Functions of Multifaced Plant-Vacuolar Processing Enzymes. 2024,Physiologia Plantarum, 176(1), e14131. https://doi.org/10.1111/ppl.14131
2023年
Rong-Shi Chen, Ji-Yi Wang, Rehman Sarwar, Xiao-Li Tan*. Genetic Breakthroughs in the Brassica napus-Sclerotinia sclerotiorum interactions. Front. Plant Sci. 2023. Dol: 10.3389/fpls.2023.1276055.
Keming Zhu, Nannan Li, Xiangfeng Zheng, Rehman Sarwar, Yulong Li, Jun Cao, Zheng Wang and Xiaoli Tan*. Overexpression the BnLACS9 could increase the chlorophyll and oil content in Brassica napus. Biotechnology for Biofuels and Bioproducts. 2023: 16:3. https://doi.org/10.1186/s13068-022-02254-3
Sarwar, R.,Li, L. Yu, J. Zhang, Y.,Geng, R. Meng, Q.,Zhu,K.,Tan, X.-L*. Functional Characterization of the Cystine-Rich-Receptor-like Kinases (CRKs) and Their Expression Response to Sclerotinia sclerotiorum and Abiotic Stresses in Brassica napus. International Journal of Molecular Sciences. 2023, 24, 511. https:// doi.org/10.3390/ijms24010511
2022年
Geng, R., Shan, Y., Li, L., Shi, C.-L., Zhang, W., Wang, J., Sarwar, R., Xue, Y.-X., Li, Y.-L., Zhu, K.-M., Wang, Z., Xu, L.-Z., Aalen, R.B., Tan, X.-L*., CRISPR-mediated BnaIDA editing prevents silique shattering, floral organ abscission and spreading of Sclerotinia sclerotiorum in Brassica napus, PLANT COMMUNICATIONS (2022), doi: https://doi.org/10.1016/j.xplc.2022.100452.
Li-Na Ding, Yue-Tao Li, Yuan-Zhen Wu, Teng Li, Rui Geng, Jun Cao, Wei Zhang and Xiao-Li Tan*. Plant Disease Resistance-Related Signaling Pathways: Recent Progress and Future Prospects. International Journal of Molecular Sciences. 2022, 23, 16200. https://doi.org/10.3390/ijms232416200.
Rehman Sarwar , Ke-Ming Zhu , Ting Jiang , Peng Ding , Yue Gao , and Xiao-Li Tan* (2022),DELLAs directed gibberellins responses orchestrate crop development: A brief review. Crop Science, https://doi.org/10.1002/csc2.2082.
Li-Na Ding, Rui Liu, Teng Li, Ming Li, Xiao-Yan Liu, Wei-Jie Wang, Yan-Kun Yu, Jun Cao and Xiao-Li Tan* (2022) Physiological and comparative transcriptome analyses reveal the mechanisms underlying waterlogging tolerance in a rapeseed anthocyanin‑more mutant. Biotechnology for Biofuels and Bioproducts. 15:55 https://doi.org/10.1186/s13068-022-02155-5
Sarwar R, Geng R, Li L, Shan Y, Zhu K-M, Wang J and Tan X-L* (2022) Genome-Wide Prediction, Functional Divergence, and Characterization of Stress-Responsive BZR Transcription Factors in B. napus. Front. Plant Sci. 12:790655.doi: 10.3389/fpls.2021.790655
2021年
Zhao, J. , Jin, C. , Geng, R. , Xue, Y. , & Tan, X. . (2021). Development and application of molecular markers for tsw (thousand-seed weight) related gene bnagrf7.c02 in brassica napus. Oil, Crop Science,doi:10.1016/j.ocsci.2021.07.003. 6(3), 6.
Jiawang Mao, Yanhua Yang, Ningning Wang, Keming Zhu, Yulong Li, Zheng Wang & Xiaoli Tan*. (2021). Molecular Analysis Associated with Early Flowering Mutant in Brassica napus,Journal of Plant Biology, 64(3), 227-241,Doi:10.1007/s12374-021-09299-1
Li-Na Ding, Teng Li, Xiao-Juan Guo, Ming Li, Xiao-Yan Liu, Jun Cao, and Xiao-Li Tan*. (2021). Sclerotinia Stem Rot Resistance in Rapeseed: Recent Progress and Future Prospects. Journal of Agriculture and Food Chemistry, (2021), https://dx.doi.org/10.1021/acs.jafc.0c07351.
Yu‑Long Li, Yan‑Kun Yu, Ke‑Ming Zhu, Li‑Na Ding, Zheng Wang,Yan‑Hua Yang,Jun Cao, Li‑Zhang Xu,Yao‑Ming Li,Xiao‑Li Tan*. (2021) Down‑regulation of MANNANASE7 gene in Brassica napus L. enhances silique dehiscence resistance. Plant Cell Rep. 40:361-374,DOI 10.1007/s00299-020-02638-5
2020
Sundus Zafar, Min-Qiang Tang, Sheng-Yi Liu, Xiao-Li Tan*. (2020)
Candidate genes association study to identify allele-specific SNP marker of ω-3 fatty acid in Brassica napus. Journal of Plant Physiology 248: 153159, https://doi.org/10.1016/j.jplph.2020.153159.
Zheng Wang, Lu‑Yue Ma, Xiao Li, Feng‑Yun Zhao, Rehman Sarwar, Jun Cao, Yu‑Long Li, Li‑Na Ding, Ke‑Ming Zhu,Yan‑Hua Yang, Xiao‑Li Tan*. (2020) Genome‑wide identification of the NPR1‑like gene family in Brassica napus and functional characterization of BnaNPR1 in resistanceto Sclerotinia sclerotiorum. Plant Cell Reports. https://doi.org/10.1007/s00299-020-02525-z
Keming Zhu,Weiwei Zhang, Rehman Sarwa , Shuo Xu , Kaixia Li, Yanhua Yang ,Yulong Li , Zheng Wang , Jun Cao, Yaoming Li and Xiaoli Tan*. (2020)
Proteomic analysis of a clavata-like phenotype mutant in Brassica napus. Genetics and Molecular Biology, 43, 1, e20190305, DOI: http://dx.doi.org/10.1590/1678-4685-GMB-2019-0305
Zheng Wang, Wen-Hua Zhang, Lu-Yue Ma, Xiao Li, Feng-Yun Zhao, Xiao-Li Tan* (2020) Overexpression of Brassica napus NPR1 enhances resistance to Sclerotinia sclerotiorum in oilseed rape. Physiological and Molecular Plant Pathology. 2020, https://doi.org/10.1016/j.pmpp.101460.
Li-Na Ding# Shou-Lai Gu#, Fu-Ge Zhu, Zhong-Yan Ma, Juan Li, Ming Li, Zheng Wang and Xiao-Li Tan*. (2020) Long-chain acyl-CoA synthetase 2 is involved in seed oil production in Brassica napus. BMC Plant Biology. 2020, 20:21, https://doi.org/10.1186/s12870-020-2240-x.
2019
Zheng Wang, Feng-Yun Zhao, Min-Qiang Tang, Ting Chen, Ling-Li, Bao, Jun Cao, Yu-Long Li, Yan-Hua Yang, Ke-Ming Zhu, Shengyi Liu, Xiao-Li Tan* (2019)BnaMPK6 is a determinant of quantitative disease resistance against Sclerotinia sclerotiorum in oilseed rape. Plant Science. https://doi.org/10.1016/j.plantsci.2019.110362
Sundus Zafar, Min-Qiang Tang, Yu-Kang Wang, Rehman Sarwar, Sheng-Yi Liu, Xiao-Li Tan, (2019)Candidate genes-association study to identify loci related to oleic acid in Brassica napus using SNP markers and their heterologous expression in yeast, Plant Physiology and Biochemistry, https://doi.org/10.1016/j.plaphy.2019.11.026
Sundus Zafar, Yu Yan-Kun, Ke-Ming Zhu, Wei-Jie Wang and Xiao-Li Tan* (2019)Overexpression of Nicotiana tabacum HSP17.6 Enhances Abiotic Stress Tolerance in Brassica napus, International Journal of Agriculture & Biology,DOI: 10.17957/IJAB/15.1273
Xiaona Tan, Kaixia Li, Zheng Wang, Keming Zhu, Xiaoli Tan *, Jun Cao*
(2019). A Review of Plant Vacuoles: Formation, Locating Proteins, and Functions. Plants, 8, 327; doi:10.3390/plants8090327.
Ding, Li-Na; Li, Ming; Guo, Xiao-Juan; Tang, Min-Qiang; Cao, Jun; Wang, Zheng; Liu, Rui; Zhu, Keming; Guo, Liang; Liu, Shengyi*; Tan, Xiao-Li*. (2019). Arabidopsis GDSL1 overexpression enhances rapeseed Sclerotinia sclerotiorum resistance and the functional identification of its homolog in Brassica napus. Plant Biotechnology Journal,DOI:10.1111/pbi.13289. *Corresponding authors.
Wang Z, Ma L-Y, Cao J, Li Y-L, Ding L-N, Zhu K-M, Yang Y-H and Tan X-L* (2019) Recent Advances in Mechanisms of Plant Defense to Sclerotinia sclerotiorum. Front. Plant Sci. 10:1314. doi: 10.3389/fpls.2019.01314. *Corresponding author
Li‑Na Ding, Ming Li, Wei‑Jie Wang, Jun Cao, Zheng Wang, Ke‑Ming Zhu, Yan‑Hua Yang, Yu‑Long Li, Xiao-Li Tan*. (2019), Advances in plant GDSL lipases: from sequences to functional Mechanisms. Acta Physiologiae Plantarum. 41:151
https://doi.org/10.1007/s11738-019-2944-4. *Corresponding author.
Rui Liu,Li-Na Ding,Ming Li,Wei Cao,Yu-Kang Wang,Wei-Jie Wang,Yan-Kun Yu,Zheng Wang,Ke-Ming Zhu,Xiao-Li Tan*. (2019). Characterization of a Rapeseed Anthocyanin-More Mutant with Enhanced Resistance to Sclerotinia sclerotiorum. J Plant Growth Regul. 39(2), 703-716 https://doi.org/10.1007/s00344-019-10011-4. *Corresponding author.
Sundus Zafara, Yu-Long Li, Nan-Nan Li, Ke-Ming Zhu, and Xiao-Li Tan*(2019),
Recent advances in enhancement of oil content in oilseed crops,Journal of Biotechnology 301 (2019) 35–44. DOI:10.1016/j.jbiotec.2019.05.307 *Corresponding author.
Wang Z, Bao L-L, Zhao F-Y, Tang M-Q, Chen T, Li Y, Wang B-X, Fu B, Fang H, Li G-Y, Cao J, Ding L-N, Zhu K-M, Liu S-Y and Tan X-L* (2019). BnaMPK3 Is a Key Regulator of Defense Responses to the Devastating Plant Pathogen Sclerotinia sclerotiorum in Oilseed Rape. Front. Plant Sci. 10:91. doi: 10.3389/fpls.2019.00091, *Corresponding author.
Li�Na Ding#, Xiao�Juan Guo#, Ming Li, Zheng�Li, Fu Su�Zhen Yan, Ke�Ming Zhu, Zheng Wang and Xiao�Li Tan*. (2019). Improving seed germination and oil contents by regulating the GDSLtranscriptional level in Brassica napus. Plant Cell Reports 38:243–253. https://doi.org/10.1007/s00299-018-2365-7, *Corresponding author.
Ke-Ming Zhu, Shuo Xu, Kai-Xia Li, Sheng Chen, Sundus Zafar, Wei Cao, Zheng Wang, Li-Na Ding, Yan-Hua Yang , Yao-Ming Li & Xiao-Li Tan*. (2019) . Transcriptome analysis of the irregular shape of shoot apical meristem in dt (duo tou) mutant of Brassica napus L. Mol Breeding 39:39, https://doi.org/10.1007/s11032-019-0943-1. *Corresponding author.
Yu-Kang Wang#, Yu-Long Li#, Zheng-Li Fu, Qi Huang, Xu-Guo Yue, Yong Wang, Ke-Ming Zhu, Zheng Wang, Yong-Shen Ge, Zhong-Hua Wang and Xiao-Li Tan*. (2019), Transcriptome Analysis of Brassica napus Wax-deficient Mutant Revealed the Dynamic Regulation of Leaf Wax Biosynthesis is Associated with Basic pentacysteine 6. International Journal of Agriculture and Biology,21: 1228‒1234. DOI: 10.17957/IJAB/15.1015. *Corresponding author.
授权专利
1.谭小力,朱福各,崇保强,陈华友,王政,张志燕,陈克平. 一种能提高酵母含油量的植物脂酰辅酶A合成酶基因及其应用(ZL200910232919.2)。
2.谭小力,李娟,宁德刚,孔凡明,朱福各,张志燕,王政。蓝细菌血红蛋白基因及其在促进微生物及植物生长中的应用(ZL200910232918.8)。
3.谭小力,魏明玉,袁伟伟,王政,张志燕。一个高效纯化油菜脂肪酶的方法(ZL200910235070.4)。
4,谭小力,郑香峰,王政,张志燕,顾守来,陈克平。一种提高植物叶绿素含量以及油菜含油量的基因及应用,(ZL201310470056.9)。
5.谭小力,郭小娟,王政,张志燕,闫素珍,陈克平。拟南芥AtGDSL基因在油菜抗菌核病及促进种子萌发中的应用,(ZL20151059622.7)。
6.王政,方和娣,谭小力,陈克平,张志燕,陈宇,李冠英,顾守来。一种控制油菜菌核病的基因及其应用,(ZL201410026575.0)。
7.谭小力,李明,丁丽娜,郭小娟,朱克明,杨艳华,王政,曹军BnGLIP1基因在增强植物抗病性中的用途。(ZL201811283428.6)
8.谭小力,赵静,曹维,朱克明,王政,金婵玉,耿瑞。一种与油菜千粒重相关的基因及其分子标记和应用。(ZL202110420164.X).
9.谭小力,金婵玉,李玉龙,朱克明,丁丽娜,王政,曹军,赵静,薛怡萱,耿瑞,李腾。BnaLAC8A03基因在调节油菜籽中硫甙葡萄糖苷含量的应用。ZL202110418835.9
10.谭小力,禹艳坤,王伟杰,王政,朱克明,李玉龙,杨艳华,丁丽娜,曹军。一种油菜BnMAN7基因及其应用(ZL 2020 1 0367131.9)
11.谭小力,耿瑞,朱克明,王政,丁丽娜,曹军,李玉龙,薛怡萱,单悦,李雷。一种甘蓝型油菜BnHBBD基因定点突变的方法及应用。(ZL 2021 1 1075160.9)
12.谭小力,薛怡萱,李玉龙,耿瑞,李雷。油菜BnaBPA03基因及其调控油菜株型的应用及方法。ZL 202210629463.9,授权公告日:2024年02月09日。授权公告号:CN 114836439 B。
主持课题
1.参与油脂合成的三个油菜长链脂酰辅酶A 合成酶基因(BnLACS)的功能鉴定(31271760),国家自然科学基金面上项目,2013.1- 2016.12.主持。
2. 用不分枝突变体研究控制甘蓝型油菜分枝的分子遗传机理(31471527),国家自然科学基金面上项目,2015.1- 2018.12.主持。
3. 油菜优异种质资源形成与演化规律研究(2016YFD0100305),国家重点研发计划,2016.7 – 2020.12。任务主持。
4. 多基因聚合新技术的研发(2016YFD0101904)国家重点研发计划,2016.7 – 2020.12,任务主持。
5.基因编辑联合快速育种技术创制避菌核病及延长花期的油菜CX(21)2009,江苏省农业科技自主创新资金。2021.6- 2024.6。主持。
6.基因编辑创制长花期、避菌核病和抗落粒油菜新种质 G202101483L,科技部高端外国专家引进计划, 2021.6- 2022.12. 主持。
7.油菜抗菌核病主效QTL 的图位克隆与优异种质资源创制子项目,江苏省重点研发计划(现代农业)BE2022340,2022.7- 2024.6.主持。
8.面向冬闲田和滩涂地的油菜抗低温萌发和耐盐的新种质创制和新基因挖掘,江苏省重点研发计划(现代农业)BE2023342, 2023.4-2027.3,主持。
9.控制甘蓝型油菜花器官脱落途径基因模块的解析,国家自然科学基金面上项目32472106,2025.01-2028.12,主持。
10. 油菜优异基因资源的发掘与种质创制技术的研发(2024YFD1200401)。国家重点研发计划任务。2024.12—2027.11,任务支持。
主要研究兴趣:
油菜高产、优质、抗病、适宜机械化种质创新及生物育种。植物细胞中油脂合成代谢调控的关键因子和网络调控;种子萌发及其调控因子,多倍体植物功能基因组研究策略的建立;外源基因在植物中高水平表达及合成生物学平台的构建。
(更新于2025年4月)
