1) 国家自然科学基金面上项目(21073101)：“用于结构生物学和药物研发的蛋白质顺磁 标记”，2011. 1‐2013. 12，36 万，主持

2) 国家自然科学基金面上项目(21273121)：“位点特异标记稀土金属离子在蛋白质构象 分析中的应用”，2013.1 – 2016.12，80 万元，主持

3) 国家重大研究计划项目(2013CB910201)：“蛋白质动态学研究的新技术、新方法，2013. 1 ‐ 2017. 8，190 万元，参与

4) 国家自然科学基金面上项目(21473095)：“利用顺磁核磁共振研究固有无规结构蛋白 质的探索”，2015.1‐2018.12，90 万，主持

5) 国家自然科学基金面上项目(21673122)：“利用赝接触位移研究蛋白质瞬态复合物三维结构的测定方法”，2017.1‐2020.12，79 万，主持   

6) 国家重点研发计划(2016YFA0501202)：“蛋白质机器的动态结构的核磁共振研究方法及应用”，2016.7‐2021.6，328 万，参与

7) 国家自然科学基金委-中以国际合作项目(21761142004): “发展应用于细胞内蛋白质结构、动态变化的顺磁 探针与磁共振方法”，2017.10‐2020.12,200 万，主持

8) 国家自然科学基金委-重大项目(21991081)：“细胞中生物大分子结构与相互作用的谱学测量”，2020.1.1‐2024.12.31, 107 万，参与

9) 国家自然科学基金面上项目(22174074)：“生物核磁研究中影响顺磁效应的刚性因素评价”，2022.1‐2025.12，78 万，主持

10) 国家自然科学基金委-中以国际合作项目(22161142018)：“基于细胞内测定蛋白质结构变化与稳定性的NMR与EPR方法-新型顺磁标记路线与应用”，2022.1-2024.12，257万，主持

11)国家重点研发计划“大科学装置前沿研究”专项“强磁场回旋管高功率太赫兹波源及电子自旋共振谱仪”项目(2021YFA1600304): 2022.1-2026.12，57万，参与

1)        Guo SL, Pan BB, Li XY, XiaoYH, Su XC. 19F-PCS measurements on proteins in live mammaliancells. Chem. Commun. 2025, 1156-1159

2)        Meng WH, Zhang X, Pan BB,Tan X, Zhao JL, Liu Y, Yang Y, Goldfarb D, Su XC. Efficient orthogonal spin labelingof proteins via aldehyde cyclization for pulsed dipolar EPR distance measurements.J. Am. Chem. Soc. 2025, 147, 234-246.

3)        Bogdanov A, Gao L, DalaloyanA, Zhu W, Seal M, Su XC, Frydman V, Liu Y, Gronenborn AM, Goldfarb D*. Spin labels for 19F ENDOR distance determination:resolution, sensitivity and distance predictability. Phys. Chem. Chem.Phys. 2024, 26, 26921-26932

4)        ChenJL, Li B, Yang F, Shi T, Su XC. Increase of chiralsensing ability in host-guest chemistry by magnetic anisotropy. Since ChinaChem. 2024, 67, 2775-2782.

5)        Yang X, Su XC, Xuan W*.Genetically encoded photocaged proteinogenic and non-proteinogenic amino acids.Chembiochem. 2024, 25:e202400393

6)        Guo SL, Xiao YH,Pan BB, Su XC*. Site-specific anchoringa luminescent tag in a protein with non-emissive Iridium(III) complex. Chembiochem2024, 25:e202300798

7)        Oranges M,Giannoulis A, Vanyushkina A, Sirkis YF, Dalaloyan A, Unger T, Su XC, Sharon M,Goldfarb D*. C-terminal domain dimerization in yeast Hsp90 ismoderately modulated by the other domains. Biophys J. 2024, 123,172-184

8)        Ben-Ishay Y, Barak Y, Feintuch A, Ouari O, Pierro A, Mileo E, Su XC,Goldfarb D*. Exploring the dynamics and structure of PpiB inliving Escherichia coli cells using electron paramagnetic resonancespectroscopy. Protein Sci. 2024, 33:e4903

9)        Novakovic M, KimJ, Su XC, Kupče ER, Frydman L. Relaxation-assisted magnetization transfer phenomenafor a sensitivity-enhanced 2D NMR. Anal.Chem. 2023, 95, 18091-18098

10)    Chen JL, Wang X, Yang F, Li B, Otting G, Su XC*. 3DStructure of the transient intermediate of the enzyme–substrate complex ofsortase A reveals how calcium binding and substrate recognition cooperate insubstrate activation. ACS Catal. 2023, 13, 11610-11624

11)    Cui CY, Li B, Su XC*. Realtime monitoring of the level and activity of intracellular glutathione in livecells at atomic resolution by 19F-NMR. ACS Cent. Sci. 2023, 9, 1623-1632.

12)    Yang X, Zhao L, Wang Y, Ji Y, Su XC, Ma JA, Xuan W*. Constructingphotoactivatable protein with genetically encoded photocaged glutamic acid. Angew. Chem. Int. Ed. Engl. 2023, 62,e202308472.

13)     Li Z, Duan Y, Mao W, Chen C,Yuan W, Jin X, Shi S, Su XC, Ibáñez CF, Lin Z*. Equilibrium between monomers and dimers of the death domain of the p75neurotrophin receptor in solution. Int. J. Biol. Macromol. 2023, 246, 125710.

14)     Chen JL*, Yang Y, ShiT, Su XC.* Effective assessment of lanthanide ion delivery into live cells byparamagnetic NMR spectroscopy. Chem. Comm. 2023, 59, 10552-10555.

15)     Wang XW, Zhang X, Cui CY, Li B,Goldfarb D, Yang Y*, Su XC*. Stabilizing nitroxide spin labels for structural and conformationalstudies of biomolecules by maleimide treatment. Chem. Eur. J. 2023, 29, e202301350

16)    RogersCJ, Bogdanov A, Seal M, Thornton ME, Su XC, Natrajan LS, Goldfarb D, Bowen AM*.Frequency swept pulses for theenhanced resolution of ENDOR spectra detecting on higher spin transitions ofGd(III). J. Magn. Reson. 2023, 351, 107447

17)    Seal M, Zhu W, Dalaloyan A, Feintuch A, Bogdanov A, Frydman V, Su XC,Gronenborn AM, Goldfarb D. GdIII -19Fdistance measurements for proteins in cells by electron-nuclear double resonance.Angew. Chem. Int. Ed. Engl. 2023,62, e202218780

18)    Chen YT, Li B, Chen JL, Su XC*. Stereospecificrecognition of a chiral centre over multiple flexible covalent bonds by 19F-NMR.Analyst 2023, 148, 233-238

19)    Pan BB, Liu HZ, Meng WH, SuXC*. Pt(IV)complex selectively oxidizes alpha-synuclein methionine as disclosed by NMR. Inorg.Chem. Front. 2023, 10, 296-304

20)    Su XC*,Zhang LY, Zhao LN, Pan BB, Chen BG, Chen JL, Zhai CL, Li B. Efficient protein-proteincouplings mediated by small molecules under mild conditions. Angew.Chem. Int. Ed. Engl. 2022, 61, e202205597

21)    Chen JL, Li B, Ma B, Su XC*. Distinct stereospecificeffect of chiral tether between a tag and protein on the rigidity ofparamagnetic tag. J. Biomol NMR 2022,76, 107-119

22)    Chen YT, Li B, Chen JL, Su XC*. Simultaneous discrimination and quantification of enantiomeric aminoacids under physiological conditions by chiral 19F NMR tag. Anal. Chem. 2022, 94, 7853-7860.

23)    Zhu W, Guseman AJ, Bhinderwala F, Lu M, Su XC, Gronenborn AM. Visualizing proteins in mammalian cells by 19 F NMR spectroscopy.Angew.Chem. Int. Ed. Engl. 2022, 61, e202201097.

24)    Wu X, Ma F*, Pan BB, Zhang Y, Zhu L, Deng F, Xu L, Zhao Y, Yin X, NiuH, Su XC*, Shi L*. Tailoring a nanochaperone to regulate α-synuclein assembly. Angew.Chem. Int. Ed. Engl. 2022, 61: e202200192

25)    Cui CY, Li B, Cheng D, Li XY, Chen JL, Chen YT, Su XC*. Simultaneous quantification of biothiols and deciphering diverse GSH stabilityin different live cells by 19F-tag. Anal. Chem. 2022, 94, 901-908

26)    Chen YT, Li B, Li XY, Chen JL, Cui CY, Hu K, Su XC*. Simultaneous identification and quantificationof amino acids in biofluids by reactive 19F-tags. Chem.Commun. 2021, 13154-13157

27)    Fan G, Xu W, Li J, Chen JL, Yu M, Ni Y, Zhu S, Su XC, Cheng F*. Nanoporous NiSb toe Nitrogen electroreduction viatailoring competitive adsorption sites. Adv. Mater. 2021, 33, e2101126

28)    Fan T, Qin R, Zhang Y, Wang J, Fan JS, Bai X, Yuan W, Huang W, Shi S, Su XC, Yang D, Lin Z*. Critical role of minor eggcasesilk component in promoting spidroin chain alignment and strong fiberformation. Proc. Natl. Acad. Sci. USA. 2021,118, e2100496118

29)    Hou XN, Sekiyama N, Ohtani Y, Yang F, Miyanoiri Y, Akagi KI, Su XC, Tochio H*. Conformational space sampled by domainreorientation of linear diubiquitin reflected in its binding mode for target proteins.Chemphyschem.2021, 22, 1505-1517

30)     Ma B,Chen JL, Cui CY, Yang F, Gong YJ, SuXC.* Rigid, highly reactive and stable DOTA-liketags containing a thiol-specific phenylsulfonyl pyridine moiety for proteinmodification and NMR analysis. Chem. Eur.J. 2021, 17, 16145-16152

31)     Chen JL, Chen BG, Li B, Yang F, Su XC*.Assessing multiple conformations of lanthanide binding tags for proteins usinga sensitive 19F‐reporter. Chem. Commun.2021, 4291‐4294

32)     Chen JL, Li B, Li XY, Su XC*. Dynamic exchangeof the metal chelating moiety: a key factor in determining the rigidity ofprotein‐tag conjugates in paramagnetic NMR. J.Phys. Chem. Lett. 2020, 11, 9493‐9500

33)     Yang Y, Chen SN, Yang F, Li XY, Feintuch A, SuXC*, Goldfarb* D. In‐cell destabilization of a homodimeric protein complexdetected by DEER spectroscopy. Proc. Natl.Acad. Sci USA 2020, 117, 20566‐20575

34)     Yang Y, Pan BB, Tan X, Yang F, Liu Y*, Su XC*,Goldfarb D*, In‐cell trityl‐trityl distance measurements on proteins. J. Phys. Chem. Lett. 2020, 11, 1141‐1147

35)     Giannoulis A, Feintuch A, Barak Y, Mazal H,Albeck S, Unger T, Yang F, Su XC, Goldfarb D*, Two closed ATP‐ andADP‐dependent conformations in yeast Hsp90 chaperone detected by Mn(II) EPRspectroscopic techniques. Proc. Natl.Acad. Sci. USA 2020, 117, 395‐404

36)     苏循成, 顺磁标记蛋白质在溶液与细胞内研究中的应用.中国科学‐化学 2019, 49, 1318‐1332

37)     Li M, Ning Y, Chen J, Duan X, Song N, Ding D*,Su X*, Yu Z*. Proline isomerization‐regulated tumor microenvironment‐adaptableself‐assembly of peptides for enhanced therapeutic efficacy. Nano. Lett. 2019, 19, 7965‐79768.

38)     Chen JL, Wang X, Xiao YH, Su XC*. Resonanceassignments of lowly populated and unstable enzyme intermediate complex underreal‐time conditions. Chembiochem. 2019, 20, 2738‐2742.

39)     Su XC*, Chen JL. Site‐specific tagging ofproteins with paramagnetic ions for determination of protein structures insolution and in cells. Acc. Chem. Res.2019, 52, 1675‐1686.

40)     Chen SN, Fang T, Kong JY, Pan BB, Su XC*.Third BIR domain of XIAP binds to both Cu(II) and Cu(I) in multiple sites andwith diverse affinities characterized at atomic resolution. Sci. Rep. 2019, 9, 7428.

41)     Pan BB, Yang Y, Liu HZ, Li YH, Su XC*.Coordination of platinum to α‐synuclein inhibits filamentous aggregation insolution. Chembiochem. 2019, 20, 1953‐1958.

42)     Giannoulis A, Yang Y, Gong YJ, Tan X, FeintuchA, Carmieli R, Bahrenberg T, Liu Y*, Su XC*, Goldfarb D*. DEER distancemeasurements on trityl/trityl and Gd(iii)/trityl labelled proteins. Phys. Chem. Chem. Phys. 2019, 21, 10217‐10227

43)     Yang Y, Yang F, Li XY, Su XC*, Goldfarb D*.In‐cell EPR distance measurements on ubiquitin labeled with a rigidPyMTA‐Gd(III) tag. J. Phys. Chem B. 2019, 123, 1050‐1059

44)     Wang X, Chen JL, Otting G, Su XC*. Conversionof an amide to a high‐energy thioester by Staphylococcus aureus sortase A ispowered by variable binding affinity for calcium. Sci. Rep. 2018, 8:16371

45)     Yang Y, Yang F, Gong YJ, Bahrenberg T,Feintuch A, Su XC*, Goldfarb D*. High sensitivity in‐cell EPR distancemeasurements on proteins using an optimized Gd(III) spin label. J. Phys. Chem. Lett. 2018, 9, 6119‐6123

46)     Xu D, Li B, Gao J, Liu Z, Niu X, Nshogoza G,Zhang J, Wu J, Su XC, He W, Ma R, Yang D, Ruan K. Ligand proton pseudocontactshifts determined from paramagnetic relaxation dispersion in the limit of NMRintermediate exchange. J. Phys. Chem.Lett. 2018, 9, 3361‐3367

47)     Chen JL, Zhao Y, Gong YJ, Pan BB, Wang X, SuXC*. Stable and rigid DTPA‐like paramagnetic tags suitable for in vitro and insitu protein NMR analysis. J. Biomol. NMR2018, 70, 77‐92.

48)     Hou MM, Polykretis P, Luchinat E, Wang X, ChenSN, Zuo HH, Yang Y, Chen JL, Ye Y, Li C, Banci L*, Su XC*. Solution structureand interaction with copper in vitro and in living cells of the first BIRdomain of XIAP. Sci. Rep. 2017, 7, 16630.

49)     Li X, Wu G, Yang Y, Fu S, Liu X, Kang H, YangX*, Su XC*, Shen Y*. Calmodulin dissociates the STIM1‐Orial complex and STIM1oligomers. Nat. Commun. 2017, 8, 1042.

50)     Gao J, Liang E, Ma R, Li F, Liu Y, Liu J,Jiang L, Li C, Dai H, Wu J, Su XC, He W*, Ruan K*. Fluorine pseudocontactshifts used for characterizing the protein‐ligand interaction mode in the limitof NMR intermediate exchange. Angew.Chem. Int. Ed. Engl. 2017, 56, 12982‐12986.

51)     Yang Y, Gong YJ, Litinov A, Liu HK, Yang F, SuXC*, Goldfarb D*. Generic Tags for Mn(II) and Gd(III) spin labels for distancemeasurements in proteins. Phys. Chem.Chem. Phys. 2017, 19, 26944‐26956.

52)     Cao C, Wang S, Cui T, Su XC*, Chou J*. Ion andinhibitor binding of the double‐ring ion selectivity filter of theMitochondrial calcium uniporter. Proc.Natl. Acad. Sci. USA 2017, 114, E2846‐E2851.

53)     Yang Y, Yang F, Gong YJ, Chen Jl., GoldfarbD*, Su XC*. A reactive, rigid Gd(III) labelling tag for in‐cell EPR distancemeasurements in proteins. Angew. Chem.Int. Ed. Engl. 2017, 56, 2914‐2918.

54)     Ma FH, Wang X, Chen JL, Wen X, Sun H*, Su XC*.Deciphering the multisite interactions of a protein and its ligand at atomicresolution by using sensitive paramagnetic effects. Chem. Eur. J. 2017, 23, 926‐934.

55)     Li ML, Yang S, Su XC, Wu HL, Yang LL, Zhu SF,Zhou QL*. Mechanism studies of Ir‐catalyzed asymmetric hydrogenation ofunsaturated carboxylic acids. J. Am.Chem. Soc. 2017, 139, 541‐547.

56)    ChenJL, Wang X, Yang F, Cao C, Otting G, Su XC*. 3D Structure determination of anunstable transient enzyme intermediate by paramagnetic NMR spectroscopy. Angew. Chem. Int. Ed. Engl. 2016, 55, 13744‐13748.

57)     Yang F, Wang X, Pan BB, Su XC*. Single‐armedphenylsulfonated pyridine derivative of DOTA is rigid and stable paramagnetictag in protein analysis. Chem. Commun.2016, 52, 11535‐11538.

58)     Pan BB, Yang F, Ye Y, Wang JT, Li C*, HuberT*, Su XC*. Structural determination of proteins in living cells byparamagnetic NMR spectroscopy. Chem.Commun. 2016, 52, 10237‐10240.

59)     Ma RS, Li QF, Wang AD, Zhang JH, Liu ZJ, WuJH, Su XC*, Ruan K*. Determination of pseudocontact shifts of low‐populatedexcited states by NMR chemical exchange saturation transfer. Phys. Chem. Chem. Phys. 2016, 18, 13794‐13798.

60)     Yang Y, Huang F, Huber T, Su XC*.Site‐specific tagging proteins with a rigid, small and stable transition metalchelator 8‐hydroxyquinoline for paramagnetic NMR analysis. J. Biolmol. NMR 2016, 64, 102‐113.

61)     Chen JL, Yang Y, Zhang LL, Liang H, Huber T*,Su XC*, Otting G*. Analysis of the solution conformations of T4 lysozyme byparamagnetic NMR spectroscopy. Phys.Chem. Chem. Phys. 2016, 18, 5850‐5859.

62)     Martorana A, Yang Y, Zhao Y, Li QF, Su XC*,Goldfarb D*. Mn(II) tags for DEER distance measurements in proteins via C‐Sattachment. Dalton 2015, 44, 20812‐20816.

63)     Yang Y, Wang JT, Pei YY, Su XC*. Site‐specifictagging proteins via a rigid, stable and short thiolether tether forparamagnetic spectroscopic analysis. Chem.Commun. 2015, 51, 2824‐2827.

64)     Wang Z, Yang X, Guo S, Yang Y, Su XC, Shen Y,Long J. Crystal structure of the ubiquitin‐like domain‐CUT repeat‐like tandemof special AT‐rich sequence binding protein 1 (SATB1) reveals a coordinatingDNA‐binding mechanism. J. Biol. Chem.2014, 289, 27376‐27385.

65)     Cao C, Chen JL, Yang Y, Huang F, Otting G, SuXC*. Selective 15N‐labeling of the side‐chain amide groups of asparagine andglutamine for applications in paramagnetic NMR spectroscopy. J. Biomol. NMR 2014, 59, 251‐261.

66)     Ma FH, Chen JL, Li QF, Su XC*. Kinetic assayof Michael addition like thiol‐ene reaction and the insight into proteinbioconjugation. Chem. Asian J. 2014, 9, 1808‐1816.

67)     Yang Y, Chen JL, Su XC*. PCS in structuralbiology. Chin. J. Magn. Reson. (杨茵，陈家良，苏循成 *. 蛋白质顺磁标记技术与生物核磁共振中的赝接触位移，波谱学杂志) 2014,31, 155‐171.

68)     Su XC, Wang Y, Yagi H, Shishmarev D, Mason CE,Smith PJ, Vandevenne M, Dixon NE, Otting G*. Bound or free: interaction of theC‐terminal domain of Escherichia coli single‐stranded DNA‐bindingprotein (SSB) with the tetrameric core of SSB. Biochemistry 2014, 52, 1925‐1934.

69)     Shishmarev D, Wang Y, Mason CE, Su XC, OakleyAJ, Graham B, Huber T, Dixon NE, Otting G*. Intramolecular binding mode of theC‐terminus of Escherichia coli single‐stranded DNA binding proteindetermined by nuclear magnetic resonance spectroscopy. Nucleic Acids Res. 2014,42, 2750‐2757.

70)     Huang F, Pei YY, Zuo HH, Chen JL, Su XC*.Bioconjugation of proteins with a paramagnetic NMR and fluorescent tag. Chem. Eur. J. 2013, 19, 17141‐17149.

71)     Wei Z, Yang Y, Li QF, Huang F, Zuo HH, Su XC*.Noncovalent tagging proteins with paramagnetic lanthanide complexes for proteinstudy. Chem. Eur. J. 2013, 19, 5758‐5764.

72)     Yang Y, Li QF, Cao C, Huang F, Su XC*.Site‐specific labeling of proteins with a chemically stable, high‐affinity tagfor protein study. Chem. Eur. J. 2013, 19, 1097‐1013.

73)     Li J, Pilla KB, Li QF, Zhang Z, Su XC, HuberT, Yang J*. Magic angle spinning NMR structure determination of proteins frompseudocontact shifts. J. Am. Chem. Soc.2013, 135, 8294‐8303.

74)     Zhou JY, Wan XJ, Liu YS, Zuo Y, Li Z, He GR,Long GK, Ni W, Li CS, Su XC, Chen YS*. Small molecules based onbenzo[1,2‐b:4,5‐b '] dithiophene unit for high‐performance solution‐processedorganic solar cells. J. Am. Chem. Soc.2012, 134, 16345‐16351.

75)     Li QF, Yang Y, Maleckis A, Otting G*, Su XC*.Thiol‐ene reaction: a versatile tool in site‐specific labelling of proteinswith chemically inert tags for paramagnetic NMR. Chem. Commun. 2012, 48, 2704‐2706.

22) 2024.10.19-23,“Spin labeling of proteins in PD-EPR distance measurements”, APES2024（亚太EPR/ESR会议），杭州

Detecting protein hot-spot inlive cells with high-performance 19F-tags” FGMR meeting, 德国，罗斯托克大学

21) 2024.9.9-12, “Detecting proteinhot-spot in live cells with high-performance 19F-tags” FGMR meeting,德国，罗斯托克大学

20) 2023.12.3-6, “The second Asian conference on porphyrin,phthalocyanine and related materials”, ACPP-2，香港，香港浸会大学

19) 2023.7.15-22, “Conformation exchange and interactions of XIAP withcopper ion and Smac by combination of NMR and EPR”, 20th ICBIC (第20届国际生物无机大会)，Australia, Adelaide

18) 2022.7.13, ”Site-specificlabelling of proteins with phenylsulfonyl-pyridine tags for paramagnetic NMR”,EUROMAR 2011, Utrecht, 荷兰

17) 2021.8.22-27,“Stable paramagnetic tags for in-cell NMR and EPR analysis” ISMAR, 大阪，日本，邀请报告

16) 2019.11.18‐22，In cell structural determination and stabilityanalysis of protein complexes by paramagnetic NMR and EPR, 第十一届化学生物学会议，广州，邀请报告

15) 2019.10.23‐26，Paramagneticlabeling of proteins and the application in biomolecule systems，第六届化学会生物物理大会，邀请报告，衡阳

14) 2019.11.24‐26，3D structure determination of unstable   and low‐abundance enzyme intermediate complex with paramagnetic NMR，第十八届北京分析测试学术报告会 (BCEIA2019)， 邀请报告，北京

13) 2019.8.23‐26,”3D structure determination of unstable and low‐abundance enzyme intermediatecomplex with paramagnetic NMR”，FirstAsian conference on porphyrins, phthalocyanines and related materials (ACPP‐1)and the sixth national conference on porphyrins, phthalocyannies and relatedmaterials (NCPP‐6)，邀请报告，北京，国科大

12) 2019.8.3‐6, “In cell analysis of no‐convalent bonded protein complex by NMR and EPR”，第十八届生物物理大会，邀请报告，天津

11) 2019.7.03‐7.06,“Structural determination of low‐abundance enzyme intermediate complex underreal‐time conditions using paramagnetic labeling”APNMR, 新加坡，邀请报告

10) 2019.5.29‐6.1,“Coordination of platinum inhibits fibrillation of alpha‐synuclein insolution”, 第三届生物磁共振会议, 武汉，邀请报告

9) 2018.5.27‐31,“3D structure determination of unstable enzyme intermediate using PCSs”EMBO‐workshop, Grosetto, Italy

8) 2018.10.11‐14,“高性能顺磁探针在测定不稳定蛋白质复合物三维结构域细胞内环境研究中的应用”，第二十届全国波谱学学术年会，温州 （大会报告）

7) 2018.10.18‐22，“顺磁镧系离子研究蛋白质动态结构与相互作用方法及进展”，第十四届生物无机化学学术会议，邀请报告，南京

6) 2017.3.27‐28,“3D structure determination of low‐abundance and unstable enzyme intermediateusing PCS”, 生物磁共振研讨会，中国科学技术大学，合肥

5) 2017.7.22‐28,“Stable paramagentic tags in analysis of structures and dynamics of proteins invitro and in cells using paramagnetic NMR spectroscopy”, 国际磁共振会议 (ISMAR)，加拿大魁北克

4) 2017.9.22‐24, ”3D structure determinationof low‐abundance and unstable enzyme intermediate using PCS”, 第六届全国“跨学科蛋白质研究”学术讨论会，广州

3) 2017.10.9‐11, ”3D structure determinationof proteins in living cells using paramagnetic NMR spectroscopy”, 第十七届北京分析测试学术报告会(BCEIA2017)，北京

2) 2017.10.19‐22, “高性能顺磁探针在测定不稳定蛋白质复合物三维结构与细胞内环境研究中的应用”, 第二届全国生物磁共振研讨会，青岛

1) 2017.11.3‐6, “Stable paramagnetic tags inanalysis of structures and dynamics of proteins in vitro and in cells using NMRand EPR”, 第十七届生物物理大会，上海