Tel: 021-34207069
Fax: 021-34207069
Email: taosc@sjtu.edu.cn
Homepage: https://taolab.sjtu.edu.cn
Including learning experience
2000-2004 PhD Tsinghua University, School of Life Science, China, Biophysics, Prof. Jing Cheng
1997-2000 MSc Wuhan Institute of Virology, Chinese Academy of Sciences, Molecular Biology, China, Prof. Xian-En Zhang
1993-1997 BSc Shandong University, Department of Microbiology, China, Microbiology
Work Experience
2012-present Professor of Systems Biology, Shanghai Jiao Tong University
2009-2011 Associate Professor of Systems Biology, Shanghai Jiao Tong University
2004-2008 Postdoc Research Associate, Johns Hopkins University, Proteomics, Professor Heng Zhu
Talent Awards
1. 2012, Program for “Chen Xing” Young Scholars, Shanghai Jiao Tong University
2. 2010, Program for “New Century Excellent Talents”, MOE, China
3. 2010, Program for “Rising Star Young Research Scientists”, Science and Technology, Commission of Shanghai Municipality
4. Innovation Team in Key Areas of Innovative Talent Promotion Program (Tuberculosis System Biology and Translational Medicine Innovation Team) Tao Shengce (Core Team Member) 2017 (Principal Investigator: Bi Lijun)
5. National Maternal and Child Health Science and Technology Award. Third Prize. DEFB126 Translational Medicine Research on Abnormal Sperm Function Caused by Code Shift Mutation. Tao Shengce (Ranked Fourth) 2017 (Principal Investigator: Shi Huijuan)
Social Service
1. Member of the Institutional Review Board of Shanghai Jiao Tong University, 2020-
2. Member of the Science and Technology Ethics Committee of Shanghai Jiao Tong University, 2020-
3. Member of the Degree Committee of Shanghai Jiao Tong University, Branch of biology, 2020-
4. Vice director and Secretary General of the Systems Biomedical Professional Committee of Chinese Society of Biological Engineering, 2019-
5. Member of the Biosensing, Biochip and Nanobiology (BBN) Professional Committee of the Chinese Society of Biological Engineering, 2017-
6. Member of the Molecular Systems Biology Committee of the Chinese Society of Biochemistry and Molecular Biology, 2017
7. Member of the Degree Committee of School of Life Sciences, Shanghai Jiao Tong University, 2016-
8. Member of the Teaching Committee of the School of Life Sciences, Shanghai Jiao Tong University, 2016-
9. Member of Biochip Branch of Chinese Association of Pharmaceutical Biotechnology, 2012-
10. Member of the Glycocomposite Committee of the Chinese Society of Biochemistry and Molecular Biology, 2012-
11. Member of Proteomics Committee of Chinese Society of Biochemistry and Molecular Biology, 2012-01
12. Frontiers in Immunology, Associate editor, 2021-
13. BMC Bioinformatics, Associate editor, 2020-
14. Genome Editing in Infectious Diseases, editorial board, 2019-
15. Proteomics, editorial board, 2012-
1. Cutting edge high-throughput technology development, including protein microarray technology and its applications in biomedical research;
2. Antibody technologies, antibody response and biomarker;
3. Mycobacterium tuberculosis systems biology.
1. Xue JB, Lai DY, Jiang HW, Qi H, Guo SJ, Zhu YS, Xu H, Zhou J, Tao SC*. (2022). Landscape of the RBD-specific IgG, IgM and IgA responses triggered by the inactivated virus vaccine against the Omicron variant. Cell discovery. 8:15. (Corresponding author)
2. Lai DY, Jiang HW, Li Yang, Zhang HN, Tao SC*. (2022). SARS-CoV-2 proteome microarray for COVID-19 patient sera samples profiling. STAR Protocols. 3(2):101238. (Corresponding author)
3. Chen LY, Pang PF, Qi H, Yan KQ, Ren Y, Ma ML, Cao RY, Li H, Hu CS, Li Y, Xia J, Lai DY, Dong YL, Jiang HW, Zhang HN, Shan H*, Tao SC*, Liu SQ*. (2022). Evaluation of Spike Protein Epitopes by Assessing the Dynamics of Humoral Immune Responses in Moderate COVID-19. Frontiers in Immunology - B Cell Biology. 13:770982. (Corresponding author)
4. Jiang HW, Tao SC*. (2021). Quantitative plasma proteome profiling of COVID-19 patients with mild and moderate symptoms. Ebiomedicine. doi: 10.1016/j.ebiom.2021.103773. (Corresponding author)
5. Lei Q, Yu CZ, Li Y, Hou HY, Xu ZW, Yao ZJ, Zhang YD, Lai DY, Ndzouboukou JL, Zhang B, Chen H, Ouyang ZQ, Xue JB, Lin XS, Zheng YX, Wang XN, Jiang HW, Zhang HN, Qi H, Guo SJ, He MA, Sun ZY, Wang F*, Tao SC*, Fan XL*. (2021). Anti-SARS-CoV-2 IgG responses are powerful predicting signatures for the outcome of COVID-19 patients. Journal of advanced research. doi: 10.1016/j.jare.2021.11.014. (Corresponding author)
6. Deutsch EW, Omenn GS, Sun Z, Maes M, Pernemalm M, Palaniappan KK, Letunica N, Vandenbrouck Y, Brun V, Tao SC, Yu XB, Geyer PE, Ignjatovic V, Moritz RL, and Schwenk JM (2021) Advances and Utility of the Human Plasma Proteome. Journal of proteome research. 20(12):5241-5263.
7. Xu ZW, Li Y, Lei Q, Huang LK, Lai DY1, Guo SJ, Jiang HW, Hou HY, Zheng YX, Wang XN, Wu JX, Ma ML, Zhang B, Chen H, Yu CZ, Xue JB, Zhang HN, Qi H, Yu SQ, Lin MX, Zhang YD, Lin XS, Yao ZG, Sheng HM, Sun ZY, Wang F*, Fan XL*, Tao SC* (2021) COVID-ONE-hi: The One-stop Database for COVID-19 specific Humoral Immunity and Clinical Parameters. Genomics, Proteomics & Bioinformatics doi: 10.1016/j.gpb.2021.09.006. (Corresponding author)
8. Zhang HN, Xue JB, Wang ZL, Jiang HW, Merugu SB, Li DW*, and Tao SC* (2021) EASINESS: E. coli Assisted Speedy affINity-maturation Evolution SyStem. Frontiers in immunology. doi: 10.3389/fimmu.2021.747267. (Corresponding author)
9. Xue JB, Tao SC*. (2021) Epitope analysis of SARS-CoV-2 neutralizing antibodies. Current Medical Sciences. doi: 10.1007/s11596-021-2453-8. (Corresponding author)
10. Ma ML, Shi DW, Li Y, Hong W, Lai DY, Xue JB, Jiang HW, Zhang HN, Qi H, Meng QF, Guo SJ, Xia DJ, Hu JJ, Liu S, Li HY, Zhou J, Wang W, Yang X, Fan XL, Lei Q, Chen WJ, Li CS, Yang XM, Xu SH*, We HP* and Tao SC* (2021) Systematic profiling of SARS-CoV-2-specific IgG responses elicited by an inactivated virus vaccine identifies peptides and proteins for predicting vaccination efficacy. Cell Discovery 7:67. (Corresponding author)
11. Shi HM, Li T, Xu JT, Yu JF, Yang SS, Zhang XE, Tao SC, Gu J and Deng JY. (2021) MgrB inactivation confers trimethoprim resistance in Escherichia coli. Frontiers in Microbiology. 12:682205.
12. Li Y, Lai DY, Tao SC*. (2021) SARS-CoV-2 Spike linear epitope scanning via a peptide microarray through sera profiling. STAR Protocols. doi: 10.1016/j.xpro.2021.100707. (Corresponding author)
13. Li Y, Xu ZW, Lei Q, Lai DY, Hou HY, Jiang HW, Zheng YX, Wang XN, Wu JX, Ma ML, Zhang B, Chen H, Yu CZ, Xue JB, Zhang HN, Qi H, Guo SJ, Zhang YD, Lin XS, Yao ZJ, Sheng HM, Sun ZY, Wang F*, Fan XL*, Tao SC*. (2021). Antibody landscape against SARS-CoV-2 proteome reveals significant differences between non-structural/ accessory proteins and structural proteins. Cell reports. 36(2): 109391. (Corresponding author)
14. Zheng YX, Wang L, Kong WS, Chen H, Wang XN, Meng QF, Zhang HN, Guo SJ, Jiang HW*, Tao SC*. (2021). Nsp2 has the potential to be a drug target revealed by global identification of SARS-CoV-2 Nsp2-interacting proteins. ABBS. 53(9): 1134–1141. (Corresponding author)
15. Jia H, Zhang A, Yang YQ, Cui YQ, Xu JR, Jiang HW, Tao SC, Zhang DW, Zeng HP, Hou ZY, Feng JJ. (2021). A graphene oxide coated tapered microfiber acting as a super-sensor for rapid detection of SARS-CoV-2. Lab chip. 21(12):2398-2406.
16. Li Y, Ma ML, Lei Q, Wang F, Hong W, Lai DY, Hou HY, Xu ZW, Zhang B, Chen H, Yu CZ, Xue JB, Zheng YX, Wang XN, J HW, Zhang HN, Qi H, Guo SJ, Zhang YD, Lin XS, Yao ZJ, Wu JX, Sheng HM, Zhang YN, Wei HP*, Sun ZY*, Fan XL*, Tao SC*. (2021). Linear epitope landscape of the SARS-CoV-2 Spike protein constructed from 1,051 COVID-19 patients. Cell Reports. 34(13), 108915. (Corresponding author)
17. Qu DH, Zhao XH, Sun Y, Wu FL*, Tao SC*. (2021). Mycobacterium tuberculosis thymidylyltransferase RmlA is negatively regulated by Ser/Thr protein kinase PknB. Fontiers in microbiology. doi: 10.3389/fmicb.2021.643951. (Corresponding author)
18. Qi H, Ma ML, Jiang HW, Ling JY, Chen LY, Zhang HN, Lai DY, Li Y, Guo ZW, Hu CS, Guo SJ, Meng QF, Ren Y, Yang X, Wang W, Zhou J, Zhao XD*, Li H*, Tao SC*. (2021). Systematic profiling of SARS-CoV-2-specific IgG epitopes at amino acid resolution. Cell Mol Immunol. 18:1067-1069. (Corresponding author)
19. Y Li., DY Lai., Q Lei., ZW Xu., F Wang., HY Hou., LY Chen., JX Wu., Y Ren., ML Ma., B Zhang., H Chen., CZ Yu., JB Xue., YX Zheng., XN Wang., HW Jiang., HN Zhang., H Qi., SJ Guo., YD Zhang., XS Lin., ZJ Yao., PF Pang., DW Shi., W Wang., X Yang., J Zhou., HM Sheng., ZY Sun., H Shan*, XL Fan*, SC Tao*. (202 1). Systematic evaluation of IgG responses to SARS-CoV-2 spike protein-derived peptides for monitoring COVID-19 patients. Cellular and Molecular Immunology. 18:621-631. (Corresponding author)
20. Ma ML, Qi H, Hu CS, Xu ZW, Wu FL, Wang N, Lai DY, Li Y, Zhang HN, Jiang HW, Meng QF, Guo SJ, Kang YN, Zhao XD*, Li H* and Tao SC*. (2021). The binding epitope of Sintilimab on PD-1 revealed by AbMap. ABBS. Doi:10.1093/abbs/gmab020. (Corresponding author)
21. Qi H*. , Ma ML, Lai DY, Tao SC*. (2021). Display technology: an ideal platform for coupling protein and nucleotide acid. ABBS. 53(4): 389–399. (Corresponding author)
22. Qi H, Ma ML, Hu CS, Xu ZW, Wu FL, Wang N, Lai DY, Li Y, Zhang HN, Jiang HW, Meng QF, Guo SJ, Kang YN, Zhao XD*, Li H*, Tao SC*. (2021). Antibody binding epitope Mapping (AbMap) of hundred antibodies in a single run. Mol Cell Proteomics. 20, 100059. (Corresponding author)
23. Lei Q., Li Y., Hou HY., Wang F., Ouyang ZQ., Zhang Y., Lai DY., Banga Ndzouboukou JL., Xu ZW., Zhang B., Chen H., Xue JB., Lin XS., Zheng YX., Yao ZJ., Wang XN., Yu CZ., Jiang HW., Zhang HN., Qi H., Guo SJ., Huang SH., Sun ZY*., Tao SC*., Fan XL*. (2021). Antibody dynamics to SARS-CoV-2 in asymptomatic COVID-19 infections. Allergy. 76(2):551-561. (Corresponding author)
24. Zhu YS, Shao N, Chen JW, Qi WB, Li Y, Liu P, Chen YJ, Bian SY, Zhang Y*, Tao SC*. (2020). Multiplex and visual detection of African Swine Fever Virus (ASFV) based on Hive-Chip and direct loop-mediated isothermal amplification. Analytica Chimica Acta 1140 (2020) 30e40. (Corresponding author)
25. Qi H*, Ma ML, Lai DY, Li Y, Tao SC*. (2020). Assessment and comparison of recombinant proteins from different sources for detection of SARS-CoV-2 infection by using protein microarray. ABBS, 2021, 53(2), 262–264. (Corresponding author)
26. Li Y., Lai DY., Zhang HN., Jiang HW., Tian XL., Ma ML., Qi H., Meng QF., Guo SJ., Wu YL., Wang W., Yang X., Shi DW., Dai JB., Ying TL*., Zhou J*., Tao SC*. (2020). Linear epitopes of SARS-CoV-2 spike protein elicit neutralizing antibodies in COVID-19 patients. Cellular & Molecular Immunology. 17: 1095-1097. (Corresponding author)
27. Jiang HW., Zhang HN., Meng QF., Xie J., Li Y., Chen H., Zheng YX, Xue-ning Wang XN., Qi H., Zhang J., Wang PH., Han ZG. and Tao SC*. (2020) SARS-CoV-2 Orf9b Suppresses Type I Interferon Responses by Targeting TOM70. Cellular & Molecular Immunology. 17: 998–1000. doi:10.1038/s41423-020-0514-8. (Corresponding author)
28. Jiang HW., Li Y., Zhang HN., Wang W., Yang X., Qi H., Hua Li H., Men D*., Zhou J*. and Tao SC*. (2020). SARS-CoV-2 proteome microarray for global profiling of COVID-19 specific IgG and IgM responses. Nature communications. 11: 3581. (Corresponding author)
29. Wang J., Tian GG., Li XY., Sun YY., Cheng L., Li YF., Shen Y., Chen XJ., Wenwei WW., Tao SC*. and Wu J*. (2020). Integrated glycosylation patterns of glycoproteins and DNA methylation landscapes in mammalian oogenesis and preimplantation embryo development. frontiers in Cell and Developmental Biology doi:10.3389/fcell.2020.00555. (*Corresponding author)
30. Yin WC., Mao CY., Luan XD., Shen DD., Shen QY., Su HX., Wang XX., Zhou FL., Zhao WF., Gao MQ., Chang SH., Xie YC., Tian GH., Jiang HW., Tao SC. , Shen JS., Jiang Y., Jiang HL., Xu YC., Zhang SY., Zhang Y., Xu HE. (2020). Structural basis for inhibition of the RNA-dependent RNA polymerase from SARS-CoV-2 by remdesivir. Science. 368(6498):1499-1504.
31. Wu SF., Xia L., Shi XD., Dai YJ., Zhang WN., Zhao JM., Wu Zhang W., Weng XQ., Lu J., Le HY., Tao SC., Zhu J., Zhu Chen Z., Wang YY., and Chen SJ. (2020). RIG-I Regulates Myeloid Differentiation by Promoting TRIM25-Mediated ISGylation. PNAS. 117(25):14395-14404.
32. Wang ZH., Li Y., Hou B., Pronobis MI., Wang MQ., Wang YM., Cheng GC., Weng WN., Wang YQ., Tang YF., Xu XF., Pan R., Lin F., Wang N., Chen ZQ., Wang SW., Luyan Z LY., Ma L., Li YR., Huang DL., Jiang L., Wang ZQ., Zeng WF., Zhang Y., Du XM., Lin Y., Li ZQ., Xia QY., Geng J., Dai HP., Yu Y., Zhao XD., Yuan Z., Yan J., Nie QH., Zhang XQ., Wang K., Chen FL., Zhang Q., Zhu YX., Poss KD., Tao SC*., Meng X*. (2019) An Array of 60,000 Antibodies for Proteome-Scale Antibody Generation and Target Discovery. Science Advances. 6(11):eaax2271. (Corresponding author)
33. Li Y., Li CQ., Guo SJ., Guo W., Jiang HW., Li HC., Tao SC. (2019). Longitudinal serum autoantibody repertoire profiling identifies surgery-associated biomarkers in lung adenocarcinoma. EBioMedicine. 53:102674. (Corresponding author)
34. Li KK., Qu DH., Zhang HN., Chen FY., Xu L., Wang MY., Su HY., Tao SC., Wu FL. (2020) Global discovery the PstP interactions using Mtb proteome microarray and revealing novel connections with EthR. J Proteomics. 215:103650. (*Corresponding author)
35. Li R., Chen JW., Zhang XJ., Cui JJ., Tao SC., Yang LT. (2019) Mini-Disk Capillary Array Coupling with LAMP for Visual Detection of Multiple Nucleic Acids using Genetically Modified Organism Analysis as an Example. J Agric Food Chem. 68(3):899-906.
36. Xu ZW., Zhang HN., Zhang XY., Jiang HW., Liu CX., Wu Fl., Qian LL., Hao BB., Czajkowsky DM., Guo SJ., Xu ZJ., Bi LJ., Wang SH., Li HT., Tan MJ., Yan W., Feng L., Hou JL., Tao SC*. (2019). Interplay between the bacterial protein deacetylase CobB and the second messenger c-di-GMP. EMBO J. e100948. (Corresponding author)
37. Huan Q., Wang F., Tao SC. (2019). Proteome microarray technology and application: higher, wider, and deeper. Expert Rev Proteomics. 16(10):815-827.
38. Wei S., Wang DB., Li H., Bi LJ., Deng JY., Zhu GF., Zhang JB., Li CY., Li M., Fang Y., Zhang GM., Chen J., Tao SC., Zhang XE. (2019). Fatty acylCoA synthetase FadD13 regulates proinflammatory cytokine secretion dependent on the NF‐κB signalling pathway by binding to eEF1A1. Cellular Microbiology. 2019; e13090.
39. Wu FL., Lai DY., Ding HH., Tang YJ., Xu ZW., Ma ML., Guo SJ., Wang JF., Shen N., Zhao XD., Qi H*., Li H*., Tao SC*. (2019). Identification of serum biomarkers for Systemic Lupus Erythematosus using a library of phage displayed random peptides and deep sequencing. Mol Cell Proteomics, doi: 10.1074/mcp. RA119.001582. (Corresponding author)
40. Huang JG., Huang LK., Cai KB., Xu ZW., Tao SC*., and Wang JF*. (2019). RIBOi: a database for ribosome-interacting proteins. Acta Biochim et Biophys Sin (Shanghai), 51(4):441-443. (Corresponding author)
41. Narimatsu H., Kaji H., Vakhrushev SY., Clausen H., Zhang H., Noro E., Togayachi A., Nagai-Okatani C., Kuno A., Zou X., Cheng L., Tao SC., Sun YY. (2018). Current Technologies for Complex Glycoproteomics and Their Applications to Biology/Disease-Driven Glycoproteomics. J Proteome Res., (12):4097-4112
42. Wu FL., Liu., Zhang HN., Jiang HW., Cheng., Guo SJ., Deng JY., Bi LJ, Zhang XE., Gao HF*. and Tao SC*. (2018). Global profiling of PknG interactions using a human proteome microarray reveals novel connections with CypA. Proteomics, 18, 1800265. (Corresponding author)
43. Cheng, L., Liu CX., Jiang SY., Hou S., Huang JG., Chen ZQ., Sun YY., Qi H., Jiang HW., Wang JF., Czajkowsky DM., Dai JB*., Tao SC*. (2018). Cell Lysate Microarray for Mapping the Network of Genetic Regulators for Histone Marks. Mol Cell Proteomics, 17(9):1720-1736. (Corresponding author)
44. Hui JH., Gu Y., Zhu YS., Chen YJ., Guo SJ, Tao SC., Zhang Y., and Liu P. (2018). Multiplex sample-to-answer detection of bacteria using a pipette-actuated capillary array comb with integrated DNA extraction, isothermal amplification, and smartphone detection. Lab Chip, 18(18):2854-2864.
45. Xin AJ., Wu YC., Lu H., Cheng L., Gu YH., Diao H., Chen GW., Bin Wu B., Li Z., Tao SC., Sun XX., and Shi HJ. (2018). Comparative analysis of human sperm glycocalyx from different freezability ejaculates by lectin microarray and identification of ABA as sperm freezability biomarker. Clinical Proteomics, doi.org/10.1186/s12014-018-9195-z.
46. Yang L., Yang Z., Cheng L., Cheng J., Cheng L., Sun YY., Li WT., Song K., Huang WC., Yin, Tao SC, and Zhang QH. (2018). Lectin Microarray Combined with Mass Spectrometry Identifies Haptoglobin-Related Protein (HPR) as a Potential Serologic Biomarker for Separating Nonbacterial Pneumonia from Bacterial Pneumonia in Childhood. Clinical Proteomics Applications, 12(6): e1800030
47. Jiang HW., Czajkowsky DM., Wang T., Wang XD., Wang JB., Zhang HN., Liu CX., Wu FL., He X., Xu ZW., Chen H., Guo SJ., Li Y., Bi LJ., Deng JY., Xie J., Pei JF., Zhang XE., Tao SC*. (2018). Identification of Serine 119 as an Effective Inhibitor Binding Site of M. tuberculosis Ubiquitin-like Protein Ligase PafA Using Purified Proteins and M. smegmatis. EBioMedicine, pii: S2352-3964(18)30112-9. doi: 10.1016/j.ebiom.2018.03.025. (Corresponding author)
48. Chen ZQ., Dodig-Crnković D., Schwenk JM*., Tao SC*. (2018). Current applications of antibody microarrays. Clinical Proteomics, doi: 0.1186/s12014-018-9184-2 (Corresponding author)
49. He X, Jiang HW, Chen H, Zhang HN, Liu Y, Xu ZW, Wu FL, Guo SJ, Hou JL, Yang MK, Yan W, Deng JY, Bi LJ, Zhang XE, Tao SC*. (2017). Systematic Identification of Mycobacteriumtuberculosis Effectors Reveals that BfrB Suppresses Innate Immunity. Mol Cell Proteomics. 16: 2243-2253. doi:10.1074/mcp. RA117.000296 (Corresponding author)
50. Chen JW, Shao N, Hu JY, Zhu YS, Li R, Zhang DB, Guo SJ, Hui JH, Liu P, Yang LT* and Tao SC*. (2017). Visual Detection of Multiple Nucleic Acids in a Capillary Array. J. Vis. Exp. (129), e56597, doi:10.3791/56597. (Corresponding author)
51. Zhang HN, Xu ZW, Jiang HW, Wu FL, He X, Liu Y, Guo SJ, Li Y, Bi LJ, Deng JY, Zhang XE and Tao SC*. (2017). Cyclic di-GMP regulates Mycobacterium tuberculosis resistance to ethionamide. Scientific Reports. 7(1):5860. doi: 10.1038/s41598-017-06289-7. (Corresponding author)
52. Wu FL, Liu Y, Jiang HW, Luan YZ, Zhang HN, He X, Xu ZW, Hou JL, Ji LY, Xie Z, Czajkowsky DM, Yan W, Deng JY, Bi LJ, Zhang XE and Tao SC*. (2017). "The Ser/Thr Protein Kinase Protein-Protein Interaction Map of M. tuberculosis". Mol Cell Proteomics. 16: 1491-1506. (Corresponding author)
53. Xu ZJ, Li X, Zhou SM, Xie WX, Wang J, Cheng L, Wang S, Guo SJ, Xu ZW, Cao X, Zhang MH, Yu B, Narimatsu H, Tao SC*, Zhang Y* (2017). Systematic identification of the protein substrates of UDP-GalNAc: polypeptide N-acetylgalactosaminyltransferase-T1/T2/T3 using a human proteome microarray. Proteomics. 17(11):1600485. (Corresponding author)
54. Cao HW, Shen Y*, Sun YY, Tao SC, Czajkowsky DM*, Shao ZF (2017). Towards the development of a magnetic tweezers device for high-throughput measurement of protein-protein interactions. Acta Biochim et Biophys Sin (Shanghai). 49(5): 468–470.
55. Shao N, Chen JW, Hu JY, Li R, Zhang DB, Guo SJ, Hui JH, Liu P, Yang LT*, Tao SC* (2017) Visual Detection of Multiple Genetically Modified Organisms in a Capillary Array. Lab Chip. 17(3):521-529. doi: 10.1039/c6lc01330a. (Corresponding author)
56. Qi H, Zhou HQ, Czajkowsky DM, Guo SJ, Li Y, Wang N, Shi Y, Lin LF, Wang JF, Wu D*, Tao SC* (2017). Rapid production of virus protein microarray using Protein microArray fabrication through GEne Synthesis (PAGES). Mol Cell Proteomics. 16: 288-299. doi:10.1074/mcp. M116.064873. (Corresponding author)
57. Sun M, Xu J, Wu Z, Zhai L, Liu C, Cheng Z, Xu G, Tao S, Ye BC, Zhao Y, Tan M (2016). Characterization of Protein Lysine Propionylation in Escherichia coli: Global Profiling, Dynamic Change, and Enzymatic Regulation. J Proteome Res. 15(12):4696-4708.
58. Chen Z, Zhang H, Yang L, Jiang H, Guo S, Li Y, Tao S* (2016). Construction of a metabolomics profile of arsenic trioxide effect in gastric carcinoma cell line SGC7901. Acta Biochim Biophys Sin (Shanghai). 48(5):474-81. doi: 10.1093/abbs/gmw022. (Corresponding author)
59. Cheng X, Liu YQ, Wang GZ, Yang LN, Lu YZ, Li XC, Zhou B, Qu LW, Wang XL, Cheng YX, Liu J, Tao SC*, Zhou GB* (2016). Proteomic identification of the oncoprotein STAT3 as a target of a novel Skp1 inhibitor. Oncotarget. 8(2):2681-2693. doi: 10.18632/oncotarget.13153. (Corresponding author)
60. Sun Y, Cheng L, Gu Y, Xin A, Wu B, Zhou S, Guo S, Liu Y, Diao H, Shi H, Wang G, Tao SC* (2016). A Human Lectin Microarray for Sperm Surface Glycosylation Analysis. Mol Cell Proteomics. 15(9):2839-51. (Corresponding author)
61. Men D, Zhou J, Li W, Leng Y, Chen X, Tao SC, Zhang XE (2016). Fluorescent protein nanowire-mediated protein microarrays for multiplexed and highly sensitive pathogen detection. ACS Appl Mater Interfaces. 8(27):17472-7
62. Qian L, Nie L, Chen M, Liu P, Zhu J, Zhai L, Tao SC, Cheng Z, Zhao Y, Tan M (2016). Global Profiling of Protein Lysine Malonylation in Escherichia coli Reveals Its Role in Energy Metabolism. J Proteome Res. 15(6):2060-71. doi: 10.1021/acs.jproteome.6b00264.
63. Xin AJ, Cheng L, Diao H, Wu YC, Zhou SM, Shi CG, Sun YY, Wang P, Duan SW, Zheng JF, Wu B, Yuan Y, Gu LH, Chen GW, Sun XX, Shi HJ*, Tao SC*, Zhang YL (2016). Lectin binding of human sperm associates with DEFB126 mutation and serves as a potential biomarker for subfertility. Scientific reports. 6:20249. doi: 10.1038/srep20249. (Corresponding author)
64. Xu ZW, Huang LK, Zhang HN, Li Y, Guo SJ, Wang N, Wang SH, Wang JF*, Tao SC* (2016). PMD: A Resource for Archiving and Analyzing Protein Microarray data. Scientific reports. 6:19956. doi: 10.1038/srep19956. (Corresponding author)
65. Zhang HN, Yang L, Ling JY, Czajkowsky DM, Wang JF, Zhang XW, Zhou YM, Ge F, Yang MK, Xiong Q, Guo SJ, Le HY, Wu SF, Yan W, Liu B, Zhu H, Chen Z*, Tao SC* (2015). Systematic identification of arsenic-binding proteins reveals that hexokinase-2 is inhibited by arsenic. PNAS 112(49):15084-9. (Corresponding author)
66. Tu S, Guo SJ, Chen CS, Liu CX, Jiang HW, Ge F, Deng JY, Zhou YM, Czajkowsky DM, Li Y, Qi BR, Ahn YH, Cole PA*, Zhu H*, Tao SC * (2015). YcgC represents a new protein deacetylase family in prokaryotes. eLife 2015;4:e05322. DOI: 10.7554/eLife.05322 (Corresponding author)
67. Yang L, Wang J, Li J, Zhang H, Guo S, Yan M, Zhu Z, Lan B, Ding Y, Xu M, Li W, Gu X, Qi C, Zhu H, Shao Z, Liu B*, Tao SC* (2016). Identification of serum biomarkers for gastric cancer diagnosis using a human proteome microarray. Mol Cell Proteomics. 15(2):614-23. doi: 10.1074/mcp. M115.051250. (Corresponding author)
68. Liu YQ, Wang XL, Cheng X, Lu YZ, Wang GZ, Li XC, Zhang J, Wen ZS, Huang ZL, Gao QL, Yang LN, Cheng YX, Tao SC, Liu J , Zhou GB (2015). Skp1 in lung cancer: Clinical significance and therapeutic efficacy of its small molecule inhibitors. Oncotarget. 6(33):34953-67. doi: 10.18632/oncotarget.5547.
69. Zhou SM, Cheng L, Guo SJ, Wang Y, Czajkowsky DM, Gao H, Hu XF*, Tao SC* (2015). Lectin RCA-I specifically binds to metastasis-associated cell surface glycans in triple-negative breast cancer. Breast Cancer Res. Mar 11;17:36. doi: 10.1186/s13058-015-0544-9. (Corresponding author)
70. Liao Y, Ling J, Zhang G, Liu F, Tao S, Han Z, Chen S, Chen Z, Le H (2015). Cordycepin induces cell cycle arrest and apoptosis by inducing DNA damage and up-regulation of p53 in Leukemia cells. Cell Cycle. 14(5):761-71. doi: 10.1080/15384101.2014.1000097.
71. Hu B, Niu X, Cheng L, Yang LN, Li Q, Wang Y, Tao SC, Zhou SM (2015). Discovering cancer biomarkers from clinical samples by protein microarrays. Proteomics Clin Appl. 9(1-2):98-110. doi: 10.1002/prca.201400094. (Corresponding author)
72. Deng JY, Bi LJ, Zhou L, Guo SJ, Joy Fleming, Jiang HW , Zhou Y, Gu J, Zhong Q,Wang ZX, Liu ZH, Deng RP, Gao J ,Chen T, Li WJ, Wang JF,Wang XD, Li HC, Ge F, Zhu GF,Zhang HN, Gu J, Wu FL, Zhang ZP, Wang DB,Hang HY ,Li Y, Cheng L, He X, Tao SC* and Zhang XE* (2014). Mycobacterium tuberculosis Proteome Microarray for Global Studies of Protein Function and Immunogenicity. Cell Rep. 9(6):2317-29. doi: 10.1016/j.celrep.2014.11.023. (Corresponding author)
73. Liu CX, Jiang HW, He X, Guo SJ, Tao SC* (2014). Global identification of CobB Interactors by an E. coli Proteome Microarray. Acta Biochim Biophys Sin. 2014. 46(7): 548-555. (Corresponding author)
74. Jiang X, Shao N, Jing W, Tao SC, Liu S, Sui GD (2014). Microfluidic chip integrating high throughput continuous-flow PCR and DNA hybridization for bacteria analysis. Talanta. 122:246-50.
75. Xin AJ, Cheng L, Diao H, Wang P, Gu YH, Wu B, Wu YC, Chen GW, Zhou SM, Guo SJ, Shi HJ* and Tao SC* (2014). Comprehensive profiling of accessible surface glycans of mammalian sperm using a lectin microarray. Clinical proteomics.11(1):10. doi: 10.1186/1559-0275-11-10. (Corresponding author)
76. Deng RP, He X, Guo SJ, Liu WF, Tao Y, Tao SC* (2014). Global identification of O-GlcNAc transferase (OGT) interactors by a human proteome microarray and the construction of an OGT interactome. Proteomics. 14(9):1020-30. (Corresponding author)
77. Shao N, Jiang SM, Zhang M, Wang J, Guo SJ, Li Y, Jiang HW, Liu CX, Zhang DB, Yang LT*, Tao SC* (2014). MACRO: A Combined microchip-PCR and microarray system for high-throughput monitoring of genetically modified organisms. Analytical Chemistry. 2014, 86(2): 1269−1276. (Corresponding author)
78. Tu S, Jiang HW, Liu CX, Zhou SM, Tao SC (2014). Protein Microarrays for Studies of Drug Mechanisms and Biomarker Discovery in the Era of Systems Biology. Current pharmaceutical design., 20(1): 49-55(7). (Corresponding author)
79. Chen Y, Yang LN, Cheng L, Tu S, Guo SJ, Le HY, Xiong Q, Mo R, Li CY, Jeong JS, Jiang LZ, Blackshaw S, Bi LJ, Zhu H, Tao SC*, Ge F* (2013). Bcl2-associated athanogene 3 interactome analysis reveals a new role in modulating proteasome activity. Molecular & Cellular Proteomics. 12(10):2804-19. (Corresponding author)
80. Cheng L, Guo SJ, Tao SC (2013). Microarray partition using a recycled marker pen and neutral balsam. ABBS. 45(8):706-8. (Corresponding author)
81. Zhang QF, Gu J, Gong P, Wang XD, Tu S, Bi LJ, Yu ZN, Zhang ZP, Cui ZQ, Wei HP, Tao SC*, Zhang XE*, Deng JY* (2013). Reversibly acetylated lysine residues play important roles on the enzymatic activity of Escherichia coli N-hydroxyarylamine-acetyltransferase. FEBS J. 280(9):1966-79. (Corresponding author)
82. Wang ZX, Deng RP, Jiang HW, Guo SJ, Le HY, Zhao XD, Chen CS, Zhang JB* and Tao SC* (2012). Global identification of prokaryotic glycoproteins based on an Escherichia coli proteome microarray. PLoS One. e0049080. (Corresponding author)
83. Lu KY, Tao SC, Yang TC, Ho YH, Lee CH, Lin CC, Juan HF, Huang HC, Yang CY, Chen MS, Lin YY, Lu JY, Zhu H, Chen CS (2012). Profiling lipid-protein interactions using non-quenched fluorescent liposomal nanovesicles and proteome microarrays. Mol Cell Proteomics. 11(11):1177-90.
84. Zhou SM, Cheng L, Guo SJ, Zhu H, Tao SC*. (2012). Protein microarray: An ideal platform for the investigation of protein-ligand interactions. Frontiers in Biology. 7(4):336-349 (Corresponding author)
85. Li Y, Tao SC, Bova GS, Liu AY, Chan DW, Zhu H, Zhang H (2011). Detection and Verification of Glycosylation Patterns of Glycoproteins from Clinical Specimens Using Lectin Microarrays and Lectin-based Immunosorbent Assays. Anal Chem. 83(22):8509-8516.
86. Li Y, Guo SJ, Shao N, Tu S, Xu M, Ren ZR, Ling X, Wang GQ, Lin ZX, Tao SC (2011). A universal multiplex PCR strategy for 100-plex amplification using a hydrophobically patterned microarray. Lab Chip. 11 (21): 3609-3618. (Corresponding author)
87. Zhou SM, Cheng L, Guo SJ, Zhu H, Tao SC* (2011). Lectin microarray: A powerful tool for glycan related biomarker discovery. Comb Chem High Throughput Screen. 14(8):711-719. (Corresponding author)
88. Yang LN, Guo SJ, Li Y, Zhou SM, Tao SC* (2011). Protein microarrays for systems biology. Acta Biochim Biophys Sin. 43(3):161-71. (Corresponding author)
89. Ge F, Tao SC, Bi LJ, Zhang ZP, Zhang XE (2011). Proteomics: addressing the challenges of multiple myeloma. Acta Biochim Biophys Sin. 43(2):89-95.
90. Li Y, Tao SC, Zhu H, Schneck JP (2011). High-throughput lectin microarray-based analysis of live cell surface glycosylation. Curr Protoc Protein Sci. Chapter 12: Unit12.9.
91. Ge F, Bi LJ, Tao SC, Xu XD, Zhang ZP, Kitazato K, Zhang XE (2011). Proteomic analysis of multiple myeloma: current status and future perspectives. Proteomics Clin Appl. 5(1-2):30-7.
92. Ge F, Zhang L, Tao SC, Kitazato K, Zhang ZP, Zhang XE, Bi LJ (2011). Quantitative proteomic analysis of tumor reversion in multiple myeloma cells. J Proteome Res. 10(2):845-55.
93. Ge F, Li WL, Bi LJ, Tao SC, Zhang ZP, Zhang XE (2010). Identification of novel 14-3-3ζ interacting proteins by quantitative immunoprecipitation combined with knockdown (QUICK). J Proteome Res. 9(11):5848-58.
94. Ge F, Xiao CL, Bi LJ, Tao SC, Xiong S, Yin XF, Li LP, Lu CH, Jia HT, He QY (2010). Quantitative phosphoproteomics of proteasome inhibition in multiple myeloma cells. PLoS One. 5(9).
95. Zhang K, Chen Y, Zhang ZH, Tao SC, Zhu H, Zhao YM (2010) Unrestrictive identification of non-phosphorylation PTMs in yeast kinases by MS and PTMap. Proteomics. 10(5): 896-903.
96. Yin ZZ, Tao SC, Cheong R, Zhu H, Levchenko A (2010) An integrated micro-electro-fluidic and protein arraying system for parallel analysis of cell responses to controlled microenvironments. Integrative Biology. 2(9):416-23.
97. Lin YY, Lu JY, Zhang JM, Walter W, Dang WW, Wan J, Tao SC, Qian J, Zhao YM, Boeke JD, Berger SL, Zhu H (2009)Protein Acetylation Microarray Reveals NuA4 Controls Key Metabolic Target Regulating Gluconeogenesis. Cell. 136(6): 1073 - 1084.
98. Kung LA#, Tao SC#, Qian J, Snyder M, and Zhu H (2009). Global Analysis of S. cerevisiae Proteome Reveals New Roles for Protein Glycosylation in Eucaryotes. Molecular Systems Biology. 5:308. (# contributed equally)
99. Tao SC#, Li Y#, Zhou JB#, Qian J, Schnaar RL, Zhang Y, Goldstein IJ, Zhu H, Schneck JP (2008). Lectin microarrays identify cell-specific and functionally significant cell surface glycan markers. Glycobiology. 18(10): 761-769. (# contributed equally)
100. Lu JY, Lin YY, Qian J, Tao SC, Zhu J, Zhu H (2008). Functional dissection of a HECT ubiquitin E3 ligase. Molecular and Cellular Proteomics. 7(1):35-45.
101. Chen CS, Korobkova E, Chen H, Jian X, Zhu J, Tao SC, He C & Zhu H (2008). A Proteome Chip Approach Reveals New DNA Base Damage Recognition Activities in Escherichia coli. Nature Methods. 5(1):69-74.
102. Evans-Nguyen KM, Tao SC, Zhu H, and Cotter RJ (2008). Protein Arrays on Patterned Porous Gold Substrates Interrogated with Mass Spectrometry: Detection of Peptides in Plasma. Analytical Chemistry. 80 (5), 1448 -1458.
103. Tao SC, Zhu H (2006). Protein chip fabrication by capture of nascent polypeptides. Nature Biotechnology. 24: 1253-1254.
104. Tao SC, Chen CS and Zhu H (2007). Applications of protein microarray technology. Combinatorial Chemistry & High Throughput Screening. 10(8):706-18.
105. Zhou YM#, Yang RQ#, Tao SC#, et. al. (2005). The design and application of DNA chips for early detection of SARS-CoV from clinical samples. Journal of clinical virology. 33(2):123-31. (# Contributed equally).
106. Tao SC, Jiang D, Lu HL, Xing WL, Zhou YX and Cheng J (2004). One-tube nested RT-PCR enabled by using a plastic film and its application for the rapid detection of SARS-virus. Biotechnology Letter. 26(3):179-83.
107. Tao SC, Li Y, Liu YH, Ma XM and Cheng J (2003). Room temperature hybridization of target DNA with microarrays in concentrated solutions of guanidine thiocyanate. Biotechniques. 34(6): 1260-1262.
108. Tao SC, Gao HF, Cao F, Ma XM and Cheng J (2003). Blocking oligo-a novel approach for improving chip-based DNA hybridization efficiency. Molecular and Cellular Probes. 17(4): 197-202.
109. Gao HF, Tao SC, Wang D, Zhang C, Ma XM, Cheng J and Zhou YX (2003). Comparison of different methods for preparing single stranded DNA for oligonucleotide microarray. Analytical letters. 36(13):2849-2863.
110. Tao SC, Zhang XE, Liu H, Li TX, Zhang ZP, Hu QX, Liang BF (2002). Multiplex PCR for simultaneous detection of human carcinoma-related viruses. Analytical Letters. 35 (7): 1149-1162.
111. Wang XN, Zhu YS, Jiang HW, Tao SC*. (2020). Research progress on detection technology of SARS-CoV-2. Chemistry of Life 2020, 40(8): 1258-1269 (Corresponding author). (In Chinese)
112. Zheng YX, Jiang HW, Tao SC*. (2020). Research progress on the interaction between three strongly pathogenic coronaviruses and human proteins. Chemistry of Life 2020, 40(8): 1243-1257 (Corresponding author). (In Chinese)
113. Lai DY, Hu CS, Qi H, Ma ML, Li H, Tao SC*. (2020). Overall quality assessment system of serum antibody based on phage display and high-throughput sequencing. Journal of Shanghai Jiao Tong University (Medical Science) 2020, 40(5): 583-589 (Corresponding author). (In Chinese)
114. JIANG Hewei, ZHENG Yunxiao, TAO Shengce*. (2019). Research progress in system biology of Mycobacterium tuberculosis based on proteome chip. Microbiology Bulletin. 46(2): 415−422. (Corresponding author) (In Chinese)
115. LI Yang, GUO Shujuan, TAO Shengce*. (2018). Research progress of tumor autoantibody markers. Biotechnology Technology. 2: 56-64. (Corresponding author) (In Chinese)
116. HUANG Jianwei, ZHANG Hainan, CHEN Ziqing, YANG Lina, JIANG Hewei, GUO Shujuan, LI Yang, TAO Shengce*. (2018). A metabolomics study on the effect of arsenic trioxide on HepG2 in hepatocellular carcinoma Journal of Shanghai Jiao Tong University (Medical Edition) (Corresponding author). (In Chinese)
117. LIU Yin, YANG Lina, ZHANG Hainan, TAO Shengce*. (2017). Detection and analysis of arsenic interaction proteins on Escherichia coli proteome chips. Journal of Shanghai Jiao Tong University (Medical Edition). 37(05): 583. (Corresponding author). (In Chinese)
118. CHEN Jianwei, SHAO Ning, ZHANG Yuchen, ZHU Yuanshou, YANG Litao, TAO Shengce*. (2017). A multi-functional visualization PCR microchip with simple sample loading. Heredity. 39(6): 525-534. (Corresponding author). (In Chinese)
119. Liu Chengxi, Tu Shun, Guo Shujuan, TAO Shengc*. (2014). Research Progress on Acetylation of Bacterial Proteins. Life Sciences 26(4):277-383. (Corresponding author) (In Chinese)
120. Cheng Li, Zhou Shumin, Guo Shujuan, Tao Shengce*. (2013). Application of agglobin chip in the detection of changes in sugar chain structure. Chemistry of Life Sciences, 33 (3): 316-323. (Corresponding author) (In Chinese)
121. Deng Ruiping, Guo Shujuan, Tao Shengce*. (2013). Recent advances in the study of O-GlcNAc glycosylation function. Life Sciences, 25 (5): 502-510. (Corresponding author) (In Chinese)
122. Ying Zhang, Lina Yang, Shengce Tao*. (2012). Application of protein chips in serum biomarker discovery. Chemistry of Life 32(1): 5-11. (Corresponding author) (In Chinese)
123.Li Yang, Tao Shengce*. (2010). Status Quo and Trend of Protein Chip for Disease Detection. Chinese Journal of Laboratory Medicine. 33(11):1017-1024 (Corresponding author) (In Chinese)
124. Tao Shengce, Yang Renquan et al. (2003). Preparation of SARS coronavirus gene chip and preliminary clinical sample verification. Journal of Tsinghua University (Natural Science Edition), 43(5): 715-720. (In Chinese)
125. Tao Shengce, Zhang Zhiping, Zhang Xianen (2001). Research Progress on PCR Technology. Progress in Bioengineering, 21(4): 26-29. (In Chinese)
1. 2020-2023, National Key R&D Program (2020YFE0202200), Co-PI, Human Proteome Program 2.0 - Proteomics-Driven Precision Medicine Program, RMB: 874.3 K;
2. 2020-2023, Natural Science Foundation (31970130), PI, Discovery and functional study of leading inhibitors of ubiquitin ligase of Mycobacterium tuberculosis, RMB: 560 K;
3. 2017-2020, Natural Science Foundation of China (31670831), PI, Global discovery and functional study of the interaction between mycobacterium tuberculosis protein and human protein, RMB: 650 K;
4. 2016-2021, The 13th Five-Year Plan for National Key Research and Development Program protein machines and life process regulation (2016YFA0500601), PI, Systematic discovery of new regulators of ribosome for pathogens and the construction of protein interaction networks, RMB: 8710 K;
5. 2013-2018, University-enterprise cooperation, Mycobacterium tuberculosis protein chip development / technology platform construction, PI, RMB: 6000 K.
6. 2014-2017, Natural Science Foundation of China (31370813), PI, Global protein deacetylase discovery and functional study based on proteome chip, RMB: 750 K;
7. 2013-2015, The Ministry of Health's "Twelfth Five-Year Plan" major special project for infectious diseases (2013ZX10003006-001-003), Co-PI, Preclinical studies of the discovery of the immunogen system of tuberculosis and novel vaccines, RMB: 1700 K;
8. 2012-2015, Sub-project of the 863 project of the Ministry of Science and Technology (2012AA020103), Co-PI, Protein chip key technology research and development and application in translational medicine, RMB: 4200 K;
9. 2011-2013, Natural Science Foundation of China (31000388), PI, Establishment of a global new enzyme discovery technique based on proteome chips, RMB: 200 K;
10. 2010-2014, 973 project of the Ministry of Science and Technology (2010CB529205), PI, Research and development of new technologies related to systems biomedicine, RMB: 4340 K;
11. 2010-2012, State Key Laboratory of Oncogenes and Related Genes, Independent project of the State Key Laboratory (91-10-12), PI, RMB: 300 K;
12. 2010-2011, Ministry of Education, Scientific Research Initiation Fund for Returned Overseas Students, PI, RMB: 40 K.
1. TAO Shengce, JIANG Hewei, ZHENG Yunxiao, CHEN Hong, WANG Xuening. A detection system for known molecular-protein interactions based on covalent ligation and its identification or verification method. Patent No.: ZL202110069353.7
2. TAO Shengce, LI Yang, LAI Danyun, JIANG Hewei, ZHANG Hainan, QI Huan, MA Mingliang. A diagnostic marker and its application in the diagnosis of COVID-19 and the detection of previous coronavirus infections ZL202110490217.5
3. Tao Shengce, Qi Huan, Zhao Xiaodong, Li Hua, Hu Chuansheng. A method for rapidly obtaining antigen-specific antibodies. Patent No.: ZL201710943109.2
4. Shengce Tao, Litao Yang, Ning Shao, Jiaying Hu, Jianwei Chen, Dabing Zhang. High-throughput and rapid nucleic acids detection method based on capillary microarrays. Patent No.: US10961570 B2, Date of patent: Mar. 30, 2021
5. TAO Shengce, JIANG Hewei. Drug target and its application based on Mycobacterium tuberculosis ubiquitin ligase PafA. Patent No.: ZL201810142937.0
6. TAO Shengce, QI Huan, GUO Shujuan, LI Yang. A rapid preparation method for protein chips. Patent No.: ZL201610396739.8
7. ZHU Guofeng, MO Baizi, ZHANG Hongbo, HOU Jian, ZHAO Weiguo, BI Lijun, DENG Jiaoyu, TAO Shengce, HANG Haiying, YANG Xiao. An ultrasonic microbial dispersion device. Patent No.: ZL 201420560535.X. Date of Grant Announcement: 2015.02.04
8. ZHU Guofeng, MO Baizi, ZHANG Hongbo, HOU Jian, ZHAO Weiguo, BI Lijun, DENG Jiaoyu, TAO Shengce, HANG Haiying,YANG Xiao. An ultrasonic microbial dispersion method and device. Patent No.: ZL201410503351.4. Date of Grant Announcement: 2017.11.24
9. ZHU Guofeng, MO Baizi, ZHANG Hongbo, BI Lijun, TAO Shengce, DENG Jiaoyu, ZHAO Weiguo. A bacterial dispersion counter. Patent No.: ZL201510214710.9. Grant Announcement Date2018.03.22
10. Tao Shengce, Zhang Xian-en, Bi Lijun, Deng Jiaoyu, Zhang Zhiping, Jiang Hewei, Zhou Ying, Gu Jing, Guo Shujuan, Zhang Hongtai, Wang Xude, Wang Jingfang, Hou Jian, Zhou Jie, Yang Shanshan, Zhao Fei. Uses of mycobacterium tuberculosis protein Rv1984v in the preparation of products for the diagnosis of latent tuberculosis infection. Patent No.: ZL201510719057.1. Grant Announcement Date 2017.06.06
11. Bi Lijun, Zhang Xian-en, Tao Shengce, Deng Jiaoyu, Zhu Guofeng, Hou Jian,Wang Yaguo. Use of Rv0440 protein in the diagnosis of latent/active tuberculosis. Patent No.: 201610154675.0. Grant Announcement Date: 2018.12.29
12. Tao Shengce, Bi Lijun, Zhang Xianen, Deng Jiaoyu, Zhu Guofeng, Hou Jian, Wang Yaguo. Uses of the Rv1078 protein in the diagnosis of latent/active tuberculosis. Patent No.: ZL201610153541.7. Date of Authorization Announcement: 2018.12.28
13. Guofeng ZHU, Baizi MO, Hongbo ZHANG, Jian HOU, Weiguo ZHAO, Lijun BI, Jiaoyu DENG, Shengce TAO, Haiying HANG, Jiawei LI, and Xiao YANG. Method and apparatus for dispension of microbes in liquid suspension. US 14/866,691.
14. Tao Shengce, Chen Jianwei, Zhu Yuanshou, Shao Ning, Guo Shujuan. High-capacity multi-sample biochip hybridization fence. Patent No. ZL201621142885.X. Grant Announcement Date: June 9, 2017
15. Tao Shengce, Zhang Xian-en, Bi Lijun, Deng Jiaoyu, Zhang Zhiping, Jiang Hewei, Zhou Ying, Gu Jing, Guo Shujuan, Zhang Hongtai, Wang Xude, Wang Jingfang, Hou Jian, Zhou Jie, Yang Shanshan, Zhao Fei. Uses of mycobacterium tuberculosis protein in the preparation of products for the diagnosis of latent tuberculosis infection. Patent No.: ZL 201310607359.0
16. Deng Jiaoyu, Zhang Xian-en, Bi Lijun, Tao Shengce, Zhang Zhiping, Gu Jing, Jiang Hewei, Zhou Ying, Wang Xude, Guo Shujuan, Zhang Hongtai, Yang Shanshan, Wang Jingfang, Hou Jian, Zhou Jie, Zhao Fei. Uses of mycobacterium tuberculosis protein in the preparation of products for the diagnosis of latent tuberculosis infection. Patent No.: ZL 201310608293.7
17. Zhong Qiu, Zhang Xian-en, Bi Lijun, Tao Shengce, Deng Jiaoyu, Zhang Zhiping, Zhou Lin, Chen Tao, Li Haicheng, Gu Jing, Jiang Hewei, Zhou Ying, Wang Xude, Guo Shujuan, Zhang Hongtai, Wang Jingfang, Hou Jian, Zhou Jie, Yang Shanshan, Zhao Fei. Uses of Rv3872, Rv0164 and/or Rv1926c proteins in the preparation of products for the diagnosis of active tuberculosis. Patent Application No.: 201310608295.6
18. ZHANG Xian-en, TAO Sheng-ce, BI Li-jun, DENG Jiao-yu, ZHANG Zhi-ping, JIANG He-wei, ZHOU Ying, GU Jing, GUO Shu-juan, ZHANG Hong-tai, WANG Xu-de, DENG Rui-ping, WANG Zong-xiu, LIU Zhong-hui, GU Jia, LI Yang, LI Wen-juan. A mycobacterium tuberculosis whole protein chip and application. Patent No.: ZL 201410095163.2
19. DENG Jiaoyu, ZHANG Xianen, BI Lijun, TAO Shengce, ZHANG Zhiping, GU Jing, JIANG Hewei, ZHOU Ying, WANG Xude, GUO Shujuan, ZHANG Hongtai, YANG Shanshan, WANG Jingfang, HOU Jian, ZHOU Jie, ZHAO Fei. Use of mycobacterium tuberculosis in the preparation of products for the diagnosis of active tuberculosis. Patent No.: ZL 201310607242.2
20. TAO Shengce, ZHANG Xianen, BI Lijun, DENG Jiaoyu, ZHANG Zhiping, JIANG Hewei, ZHOU Ying, GU Jing, GUO Shujuan, ZHANG Hongtai,WANG Xude, WANG Jingfang, HOU Jian, ZHOU Jie, YANG Shanshan, ZHAO Fei. Rv0174, Rv1729c and/or Rv3835 protein for use in products for the diagnosis of active tuberculosis Patent No.: ZL201310608263.6
21. Bi Lijun, Zhang Xian-en, Tao Shengce, Deng Jiaoyu, Zhang Zhiping, Zhou Ying, Jiang Hewei, Gu Jing, Zhang Hongtai, Guo Shujuan, Wang Xude, Hou Jian, Zhou Jie, Wang Jingfang, Yang Shanshan, Zhao Fei. Patent No. ZL20131060, Rv0173 and/or Rv1812c protein for use in the preparation of products for the diagnosis of active tuberculosis: ZL201310607381.5
22. YANG Li-tao, TAO Sheng-ce, ZHANG Da-bing, SHAO Ning, JIANG Shi-meng. DNA chip for high-throughput detection of transgenic products. Patent No.: ZL201310557335.9
23. Lina Yang, Shengce Tao, Jingfang Wang, Bingya Liu, Shujuan Guo, Jianfang Li, Min Yan. Application of diagnostic kit and RNF19 in the preparation of early diagnostic reagents for gastric cancer. Patent No.: ZL201210152712.6.
24. Lina Yang, Shengce Tao, Jingfang Wang, Bingya Liu, Shujuan Guo, Jianfang Li, Min Yan. Application of diagnostic kit and CCDC49 in the preparation of early diagnostic reagents for gastric cancer. Patent No.: ZL201210152714.5.
25. Lina Yang, Shengce Tao, Jingfang Wang, Bingya Liu, Shujuan Guo, Jianfang Li, Min Yan. Application of diagnostic kits and BFAR in the preparation of early diagnostic reagents for gastric cancer. Patent No.: ZL201210149161.8.
26. Lina Yang, Shengce Tao, Jingfang Wang, Bingya Liu, Shujuan Guo, Jianfang Li, Min Yan. Application of protein NT5E in the preparation of reagents for diagnosing gastric cancer and diagnostic kits. Patent No.: ZL201210148868.7.
27. Lina Yang, Shengce Tao, Jingfang Wang, Bingya Liu, Shujuan Guo, Jianfang Li, Min Yan. Application of protein TERF1 in the preparation of reagents for diagnosing gastric cancer and diagnostic kits. Patent No.: ZL201210148888.4.
28. Lina Yang, Shengce Tao, Jingfang Wang, Bingya Liu, Shujuan Guo, Jianfang Li, Min Yan. Application of protein COPS2 in the preparation of reagents for diagnosing gastric cancer and diagnostic kits. Patent No.: ZL201210149141.0.
29. Lina Yang, Shengce Tao, Jingfang Wang, Bingya Liu, Shujuan Guo, Jianfang Li, Min Yan. The application of protein CTSF in the preparation of reagents for the diagnosis of gastric cancer and diagnostic kits. Patent No.: ZL201210149082.7.
30. Li Yang, Guo Shujuan, Tao Shengce. Implementation method of general-purpose multiplex polymerase chain reaction based on microarray chip. Patent No.: ZL201010157146.9.
31. Li Yang, Guo Shujuan, Tao Shengce. Constant pressure dispenser. Patent No.: ZL2010 2 0153485.5.
SOFTWARE COPYRIGHTS
1. TAO Shengce; FAN Xionglin; Xu Zhaowei; LI Yang; LEI Qing; HUANG Likun; LAI Danyun; SUN Ziyong; WANG Feng. COVID-19-specific humoral immunity database platform [abbreviation: [COVID-ONE] V1.0 Registration number: 2021SR2132509, completion date: 2021.03.20
2. TAO Sheng-ce, XU Zhao-wei, WANG Jing-fang, HUANG Li-kun, ZHANG Hainan, LI Yang. Protein chip database system V1.0. Registration number: 2015SR290442, Completion date: 2015.04.20
3. TAO Sheng-ce, WANG Jing-fang, HUANG Jian-wei, HUANG Li-kun, XU Zhao-wei. Ribosome Interaction Database System V1.1. Registration number: 2018SR961858, Completion development date: 2017.08.20
1. Supervisor for 31 graduate students, including 17 Ph.D. students (12 graduated) and 14 master students (12 graduated);
2. Instructor for 4 undergraduate students;
3. Mentor of 7 postdoc research associates.
Address:800 Dongchuan Road, Shangha
Fax:200240
Tel:021-34206059