一、教育经历

09.2011-09.2017 硕博连读，南京农业大学，植物营养系博士

学位

11.2014-10.2017 联合培养博士，奥地利维也纳理工大学（TU WIEN），微生物与应用基因组学
09.2007-06.2011 本科，南京农业大学，农业资源与环境专业学士学位
二、工作经历

09.2017-09.2020 师资博士后，南京农业大学，植物营养系

11.2016-04.2017 项目助理，维也纳理工大学（TU WIEN），化学、环境与生物工程学系
三、获奖情况

沈其荣，黄启为，李荣，刘东阳，张建，蔡枫，缪有志，张瑞福，凌宁，徐阳春，冉炜，陈巍，王其传，谭石勇，陆建明，利用秸秆和废弃动物蛋白制造木霉固体菌种及木霉全元生物有机肥，2017
年大北农科技奖植物营养奖
四、主持项目

2018.1-2020.12 木霉菌疏水小蛋白家族基因功能及其与根系定殖力的耦联关系，国家自然科学青年基金项目（25 万）
2018.1-2020.12 与定殖相关的木霉菌表面活性小蛋白 HFB 的基因功能研究及其定向改造，江苏省科技计划青年基金项目（20 万）
2019.1-2020.12 高效根系定殖木霉菌 NJAU 4742 的 hfb 基因功


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能研究，中国博士后科学基金面上项目（10 万）五、发表论文
Cai, F., Pang, G., Li, R.-X., Li, R., Gu, X.-L., Shen, Q.-R., and Chen, W. 2017a.
Bioorganic fertilizer maintains a more stable soil microbiome than chemical fertilizer for
monocropping. Biology and Fertility of Soils. 53:861–872
Cai, F., Pang, G., Miao, Y., Li, R., Li, R., Shen, Q., and Chen, W. 2017b. The nutrient preference
of plants influences their rhizosphere microbiome. Applied Soil Ecology. 110:146–150
Cai, F., Chen, W., Wei, Z., Pang, G., Li, R., Ran, W., and Shen, Q. 2015.
Colonization of Trichoderma harzianum strain SQR-T037 on tomato roots and its
relationship to plant growth, nutrient availability and soil microflora. Plant and Soil.
388:337–350
Li, R.-X., Cai, F., Pang, G., Shen, Q.-R., Li, R., and Chen, W. 2015. Solubilisation of phosphate
and micronutrients by Trichoderma harzianum and its relationship with the promotion of tomato
plant growth. PLoS ONE. 10:e0130081 (shared first authorship)
Cai, F., Yu, G., Wang, P., Wei, Z., Fu, L., Shen, Q., and Chen, W. 2013.
Harzianolide, a novel plant growth regulator and systemic resistance elicitor from
Trichoderma harzianum. Plant Physiology and Biochemistry. 73:106–113
Zhang, J., Miao, Y., Rahimi, M.J., Zhu, H., Steindorff, A., Schiessler, S., Cai, F., Pang, G.,
Chenthamara, K., Xu, Y., Kubicek, C.P., Shen, Q., Druzhinina, I.S., 2019. Guttation capsules
containing hydrogen peroxide: an evolutionarily conserved NADPH oxidase gains a role in wars
between related fungi: The role of hydrogen peroxide in fungal wars. Environmental Microbiology.
Hatvani, L., Homa, M., Chenthamara, K., Cai, F., Kocsubé, S., Atanasova, L., Mlinaric-Missoni,
E., Manikandan, P., Revathi, R., Dóczi, I., Iványi, B., Bogáts, G., Narendran, V., Büchner, R.,
Vágv?lgyi, C., Druzhinina, I.S., Kredics, L. 2019. Agricultural systems as potential
sources of emerging human mycoses caused by Trichoderma FEMS Microbiology Letters, in press
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Jiang, S.-Q., Yu, Y.-N., Gao, R.-W., Wang, H., Zhang, J., Li, R., Long, X.-H., Shen, Q.-R., Chen,
W., and Cai, F. 2019. High-throughput absolute quantification sequencing reveals the effect of
different fertilizer applications on bacterial community in a tomato cultivated coastal saline
soil. Science of the Total Environment. 687:601–609
Kubicek, C. P., Steindorff, A. S., Chenthamara, K., Manganiello, G., Henrissat, B., Zhang, J.,
Cai, F., Kopchinskiy, A. G., Kubicek, E. M., Kuo, A., Baroncelli, R., Sarrocco, S.,
Noronha, E. F., Vannacci, G., Shen, Q., Grigoriev, I. V., and Druzhinina,
I. S. 2019. Evolution and comparative genomics of the most common Trichoderma
species. BMC Genomics. 20
Druzhinina, I. S., Chenthamara, K., Zhang, J., Atanasova, L., Yang, D., Miao, Y., Rahimi, M. J.,
Grujic, M., Cai, F., Pourmehdi, S., Salim, K. A., Pretzer, C., Kopchinskiy,
A. G., Henrissat, B., Kuo, A., Hundley, H., Wang, M., Aerts, A., Salamov, A., Lipzen, A., LaButti,
K., Barry, K., Grigoriev, I. V., Shen, Q., and Kubicek, C. P. 2018. Massive lateral transfer of
genes encoding plant cell wall-degrading enzymes to the mycoparasitic fungus
Trichoderma from its plant-associated hosts. PLOS Genetics. 14:e1007322
Pang, G., Cai, F., Li, R., Zhao, Z., Li, R., Gu, X., Shen, Q., and Chen, W. 2017.
Trichoderma-enriched organic fertilizer can mitigate microbiome degeneration of monocropped
soil to maintain better plant growth. Plant and Soil. 416:181–192
Przylucka, A., Akcapinar, G. B., Chenthamara, K., Cai, F., Grujic, M., Karpenko, J., Livoi, M.,
Shen, Q., Kubicek, C. P., and Druzhinina, I. S. 2017. HFB7 – A novel orphan hydrophobin of the
Harzianum and Virens clades of Trichoderma, is involved in response to biotic and abiotic stresses.
Fungal Genetics and Biology. 102:63–76
六、相关著作
Chenthamara, K., Rahimi, M., Grujic, M., Druzhinina, I. S. and Cai, F.* Trichoderma
reesei – Methods and Protocols: Ecological genomics and evolution of Trichoderma reesei,
Mach-Aignar, A., and Martzy, R., eds. (in press)
Rahimi, M., Cai, F., Grujic, M., Chenthamara, K., and Druzhinina, I. S. Trichoderma
reesei – Methods and Protocols: Molecular identification of Trichoderma

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reesei. Mach-Aignar, A. and Martzy, R., eds. (in press)
七、专利成果

中国发明专利，ZL201610235081.2，一种促进哈茨木霉根表定殖的蛋白及其应用，发明人：沈其荣，蔡枫，黄启为，李荣，刘东阳，授权公告日 2017.09.12
















































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