BDBM241950 Neolitsea aciculata extract, 5
BDBM241951 Neolitsea aciculata extract, 6
- Gooyit, M; Lee, M; Schroeder, VA; Ikejiri, M; Suckow, MA; Mobashery, S; Chang, M Selective water-soluble gelatinase inhibitor prodrugs. J Med Chem 54: 6676-90 (2011)
- Lowe, JA; Drozda, SE; McLean, S; Bryce, DK; Crawford, RT; Zorn, S; Morrone, J; Appleton, TA; Lombardo, F A water soluble benzazepine cholecystokinin-B receptor antagonist Bioorg Med Chem Lett 5: 1933-1936 (1995)
- Balestrieri, E; Pizzimenti, F; Ferlazzo, A; Giofrè, SV; Iannazzo, D; Piperno, A; Romeo, R; Chiacchio, MA; Mastino, A; Macchi, B Antiviral activity of seed extract from Citrus bergamia towards human retroviruses. Bioorg Med Chem 19: 2084-9 (2011)
- Nakamura, M; Inoue, J Exploration of peptidyl hydrazones as water-soluble calpain inhibitors. Bioorg Med Chem Lett 12: 1603-6 (2002)
- Kato, E; Yama, M; Nakagomi, R; Shibata, T; Hosokawa, K; Kawabata, J Substrate-like water soluble lipase inhibitors from Filipendula kamtschatica. Bioorg Med Chem Lett 22: 6410-2 (2012)
- Nakagawa-Goto, K; Chen, CX; Hamel, E; Wu, CC; Bastow, KF; Brossi, A; Lee, KH Antitumor agents. Part 236: Synthesis of water-soluble colchicine derivatives. Bioorg Med Chem Lett 15: 235-8 (2004)
- Chenera, B; DesJarlais, RL; Finkelstein, JA; Eggleston, DS; Meek, TD; Tomaszek, TA; Dreyer, GB Nonpeptide HIV protease inhibitors designed to replace a bound water Bioorg Med Chem Lett 3: 2717-2722 (1993)
- Vartak, AP; Gabriela Deaciuc, A; Dwoskin, LP; Crooks, PA Quinlobelane: a water-soluble lobelane analogue and inhibitor of VMAT2. Bioorg Med Chem Lett 20: 3584-7 (2010)
- Sheppard, GS; Davidsen, SK; Carrera, GM; Pireh, D; Holms, JH; Heyman, HR; Steinman, DH; Curtin, ML; Conway, RG; Rhein, DA; Albert, DH; Tapang, P; Magoc, TJ; Summers, JB Synthesis and evaluation of water soluble indole pyrrolothiazole paf antagonists Bioorg Med Chem Lett 5: 2913-2918 (1995)
- Govek, SP; Oshiro, G; Anzola, JV; Beauregard, C; Chen, J; Coyle, AR; Gamache, DA; Hellberg, MR; Hsien, JN; Lerch, JM; Liao, JC; Malecha, JW; Staszewski, LM; Thomas, DJ; Yanni, JM; Noble, SA; Shiau, AK Water-soluble PDE4 inhibitors for the treatment of dry eye. Bioorg Med Chem Lett 20: 2928-32 (2010)
- Meibom, D; Meyer, J; von Buehler, CJ; Collins, KD; Maassen, S; Gericke, KM; Hüser, J; Mittendorf, J; Ortega Hernandez, N; Schamberger, J; Stampfuss, J; Straub, A; Torge, A; Witowski, N; Wunder, F BAY-6096: A Potent, Selective, and Highly Water-Soluble Adrenergic α J Med Chem 66: 4659-4670 (2023)
- Xu, L; Farthing, AK; Dropinski, JF; Meinke, PT; McCallum, C; Leavitt, PS; Hickey, EJ; Colwell, L; Barrett, J; Liu, K Nocathiacin analogs: Synthesis and antibacterial activity of novel water-soluble amides. Bioorg Med Chem Lett 19: 3531-5 (2009)
- Ettmayer, P; Billich, A; Hecht, P; Rosenwirth, B; Gstach, H Paracyclophanes: a novel class of water-soluble inhibitors of HIV proteinase. J Med Chem 39: 3291-9 (1996)
- Attolino, E; Calderone, V; Dragoni, E; Fragai, M; Richichi, B; Luchinat, C; Nativi, C Structure-based approach to nanomolar, water soluble matrix metalloproteinases inhibitors (MMPIs). Eur J Med Chem 45: 5919-25 (2010)
- Leung, IK; Flashman, E; Yeoh, KK; Schofield, CJ; Claridge, TD Using NMR solvent water relaxation to investigate metalloenzyme-ligand binding interactions. J Med Chem 53: 867-75 (2010)
- Lackey, K; Sternbach, DD; Croom, DK; Emerson, DL; Evans, MG; Leitner, PL; Luzzio, MJ; McIntyre, G; Vuong, A; Yates, J; Besterman, JM Water soluble inhibitors of topoisomerase I: quaternary salt derivatives of camptothecin. J Med Chem 39: 713-9 (1996)
- Rainer, B; Revoltella, S; Mayr, F; Moesslacher, J; Scalfari, V; Kohl, R; Waltenberger, B; Pagitz, K; Siewert, B; Schwaiger, S; Stuppner, H From bench to counter: Discovery and validation of a peony extract as tyrosinase inhibiting cosmeceutical. Eur J Med Chem 184: (2019)
- Bock, MG; DiPardo, RM; Rittle, KE; Evans, BE; Freidinger, RM; Veber, DF; Chang, RS; Chen, TB; Keegan, ME; Lotti, VJ Cholecystokinin antagonists. Synthesis of asperlicin analogues with improved potency and water solubility. J Med Chem 29: 1941-5 (1986)
- Shadrick, WR; Slavish, PJ; Chai, SC; Waddell, B; Connelly, M; Low, JA; Tallant, C; Young, BM; Bharatham, N; Knapp, S; Boyd, VA; Morfouace, M; Roussel, MF; Chen, T; Lee, RE; Kiplin Guy, R; Shelat, AA; Potter, PM Exploiting a water network to achieve enthalpy-driven, bromodomain-selective BET inhibitors. Bioorg Med Chem 26: 25-36 (2018)
- Badarau, E; Mongeot, A; Collighan, R; Rathbone, D; Griffin, M Imidazolium-based warheads strongly influence activity of water-soluble peptidic transglutaminase inhibitors. Eur J Med Chem 66: 526-30 (2013)
- Lloyd, MG; Huckvale, R; Cheung, KJ; Rodrigues, MJ; Collie, GW; Pierrat, OA; Gatti Iou, M; Carter, M; Davis, OA; McAndrew, PC; Gunnell, E; Le Bihan, YV; Talbot, R; Henley, AT; Johnson, LD; Hayes, A; Bright, MD; Raynaud, FI; Meniconi, M; Burke, R; van Montfort, RLM; Rossanese, OW; Bellenie, BR; Hoelder, S Into Deep Water: Optimizing BCL6 Inhibitors by Growing into a Solvated Pocket. J Med Chem 64: 17079-17097 (2021)
- Zafrir, E; Carmeli, S Micropeptins from an Israeli fishpond water bloom of the cyanobacterium Microcystis sp. J Nat Prod 73: 352-8 (2010)
- Carta, F; Temperini, C; Innocenti, A; Scozzafava, A; Kaila, K; Supuran, CT Polyamines inhibit carbonic anhydrases by anchoring to the zinc-coordinated water molecule. J Med Chem 53: 5511-22 (2010)
- Patil, RV; Xu, S; van Hoek, AN; Rusinko, A; Feng, Z; May, J; Hellberg, M; Sharif, NA; Wax, MB; Irigoyen, M; Carr, G; Brittain, T; Brown, P; Colbert, D; Kumari, S; Varadaraj, K; Mitra, AK Rapid Identification of Novel Inhibitors of the Human Aquaporin-1 Water Channel. Chem Biol Drug Des 87: 794-805 (2016)
- Sonawane, ND; Verkman, AS Thiazolidinone CFTR inhibitors with improved water solubility identified by structure-activity analysis. Bioorg Med Chem 16: 8187-95 (2008)
- Ponticello, GS; Freedman, MB; Habecker, CN; Lyle, PA; Schwam, H; Varga, SL; Christy, ME; Randall, WC; Baldwin, JJ Thienothiopyran-2-sulfonamides: a novel class of water-soluble carbonic anhydrase inhibitors. J Med Chem 30: 591-7 (1987)
- Antoni, F; Wifling, D; Bernhardt, G Water-soluble inhibitors of ABCG2 (BCRP) - A fragment-based and computational approach. Eur J Med Chem 210: (2021)
- LI, Z; TANG, F; LIU, L; LIU, L; JIANG, L; ZHOU, F; TANG, R; REN, J US Patent US20250122221 (2025)
- DAY, RF; GULGEZE EFTHYMIOU, HB; FRIEDMAN, A; HARRISON, T; LARROW, JF; PENG, Y; SMITH, N; TANG, H; WU, Y; KING, SM; LAU, SH; PATEL, T US Patent US20250034108 (2025)
- YANG, A; ZHANG, D; DONG, L; HE, Q; YI, T; MENG, J; TIAN, L; LIANG, J; FENG, Z; HU, K; ZHANG, X; ZHANG, Y; HU, X; HOU, Y; TANG, J US Patent US20240228491 (2024)
- TANG M
- LI, Y; CHEN, L; SHI, Z; HU, G; GENG, P; WANG, H; SHI, S; WANG, Y; TANG, P; YU, Y; ZHANG, C; YAN, P US Patent US20240368204 (2024)
- GIROUX, S; CLARK, MP; TANG, Q; NUHANT, PM; JONES, P; MESSERSMITH, D; BANDARAGE, UK; COTTRELL, KM; BRODNEY, MA; FLEMING, GS; WANG, J; XU, J; DANIEL, KB; BOYD, MJ; MORRIS, MA; WAAL, ND; COLLIER, PN; KESAVAN, S; RONKIN, SM; DENG, H; BOUCHER, DM; FANNING, LT; HALL, AB; HURLEY, DJ; JOHNSON, Jr., MA; MAXWELL, JP; SWETT, RJ; TAPLEY, TL; THOMSON, SA; DAMAGNEZ, V US Patent US20230339915 (2023)
- LIU, L; LI, Z; LIU, X; ZHAO, X; CHA, X; TANG, F; FU, Y; CAO, Z; TANG, R; REN, J US Patent US20240307415 (2024)
- SACCHETTINI, J; ACHARYA, A; FLORES, A; KRIEGER, I; PARAI, M; ZHOU, N; BAM, R; JAISWAL, PK; TANG, S; BIAN, X; SHI, Z US Patent US20250074907 (2025)
- DING, K; LI, S; ZHANG, Z; SI, H; TU, Z; REN, X; LEI, C; TANG, X; GAO, Y; CHAN, S US Patent US20230348487 (2023)
- MIAO, L; TANG, Y; TIAN, H; MA, C; WU, J; XU, D; ZHU, C; TIAN, Z US Patent US20230321108 (2023)
- Barbosa Da Silva, E; Sharma, V; Hernandez-Alvarez, L; Tang, AH; Stoye, A; O'Donoghue, AJ; Gerwick, WH; Payne, RJ; McKerrow, JH; Podust, LM J Med Chem 65: 4255-4269 (2022)
- Tang, B; Frasinyuk, MS; Chikwana, VM; Mahalingan, KK; Morgan, CA; Segvich, DM; Bondarenko, SP; Mrug, GP; Wyrebek, P; Watt, DS; DePaoli-Roach, AA; Roach, PJ; Hurley, TD J Med Chem 63: 3538-3551 (2020)
- Grandjean, JM; Jiu, AY; West, JW; Aoyagi, A; Droege, DG; Elepano, M; Hirasawa, M; Hirouchi, M; Murakami, R; Lee, J; Sasaki, K; Hirano, S; Ohyama, T; Tang, BC; Vaz, RJ; Inoue, M; Olson, SH; Prusiner, SB; Conrad, J; Paras, NA ACS Med Chem Lett 11: 127-132 (2020)
- Feng, DM; DiPardo, RM; Wai, JM; Chang, RK; Di Marco, CN; Murphy, KL; Ransom, RW; Reiss, DR; Tang, C; Prueksaritanont, T; Pettibone, DJ; Bock, MG; Kuduk, SD Bioorg Med Chem Lett 18: 682-7 (2008)
- Ranatunga, S; Tang, CH; Kang, CW; Kriss, CL; Kloppenburg, BJ; Hu, CC; Del Valle, JR J Med Chem 57: 4289-301 (2014)
- Wang, WL; Huang, C; Gao, LX; Tang, CL; Wang, JQ; Wu, MC; Sheng, L; Chen, HJ; Nan, FJ; Li, JY; Li, J; Feng, B Bioorg Med Chem Lett 24: 1889-94 (2014)
- Pass, M; Bolton, RE; Coote, SJ; Finch, H; Hindley, S; Lowdon, A; McDonald, E; McLaren, J; Owen, M; Pegg, NA; Mooney, CJ; Tang, CM; Parry, S; Patel, C Bioorg Med Chem Lett 9: 431-6 (1999)
- Lin, LG; Xie, H; Li, HL; Tong, LJ; Tang, CP; Ke, CQ; Liu, QF; Lin, LP; Geng, MY; Jiang, H; Zhao, WM; Ding, J; Ye, Y J Med Chem 51: 4419-29 (2008)
- Chander, S; Tang, CR; Al-Maqtari, HM; Jamalis, J; Penta, A; Hadda, TB; Sirat, HM; Zheng, YT; Sankaranarayanan, M Bioorg Chem 72: 74-79 (2017)
- Shih, KC; Shiau, CW; Chen, TS; Ko, CH; Lin, CL; Lin, CY; Hwang, CS; Tang, CY; Chen, WR; Huang, JW Bioorg Med Chem Lett 21: 4490-7 (2011)
- Reck, F; Bermingham, A; Blais, J; Capka, V; Cariaga, T; Casarez, A; Colvin, R; Dean, CR; Fekete, A; Gong, W; Growcott, E; Guo, H; Jones, AK; Li, C; Li, F; Lin, X; Lindvall, M; Lopez, S; McKenney, D; Metzger, L; Moser, HE; Prathapam, R; Rasper, D; Rudewicz, P; Sethuraman, V; Shen, X; Shaul, J; Simmons, RL; Tashiro, K; Tang, D; Tjandra, M; Turner, N; Uehara, T; Vitt, C; Whitebread, S; Yifru, A; Zang, X; Zhu, Q Bioorg Med Chem Lett 28: 748-755 (2018)
- Duan, YT; Sang, YL; Makawana, JA; Teraiya, SB; Yao, YF; Tang, DJ; Tao, XX; Zhu, HL Eur J Med Chem 85: 341-51 (2014)
- Bartlett, MJ; Chin, GF; Clarke, MO; Cosman, JL; Ensan, D; Goyal, B; Ho, S; Hui, HC; Mackman, RL; Mish, MR; Schroeder, SD; Shapiro, ND; Siegel, DS; Tang, DT; Yang, H US Patent US20240043427 (2024)
- Brown, GR; Bamford, AM; Bowyer, J; James, DS; Rankine, N; Tang, E; Torr, V; Culbert, EJ Bioorg Med Chem Lett 10: 575-9 (2000)
- Bradbury, RH; Bath, C; Butlin, RJ; Dennis, M; Heys, C; Hunt, SJ; James, R; Mortlock, AA; Sumner, NF; Tang, EK; Telford, B; Whiting, E; Wilson, C J Med Chem 40: 996-1004 (1997)
- Sun, L; Tran, N; Liang, C; Tang, F; Rice, A; Schreck, R; Waltz, K; Shawver, LK; McMahon, G; Tang, C J Med Chem 42: 5120-30 (1999)
- Norman, MH; Smith, HD; Andrews, CW; Tang, FL; Cowan, CL; Steffen, RP J Med Chem 38: 4670-8 (1995)
- Tang, G; Ding, K; Nikolovska-Coleska, Z; Yang, CY; Qiu, S; Shangary, S; Wang, R; Guo, J; Gao, W; Meagher, J; Stuckey, J; Krajewski, K; Jiang, S; Roller, PP; Wang, S J Med Chem 50: 3163-6 (2007)
- Mao, TQ; He, QQ; Wan, ZY; Chen, WX; Chen, FE; Tang, GF; De Clercq, E; Daelemans, D; Pannecouque, C Bioorg Med Chem 23: 3860-8 (2015)
- Cheng, ZB; Deng, YL; Fan, CQ; Han, QH; Lin, SL; Tang, GH; Luo, HB; Yin, S J Nat Prod 77: 1928-36 (2014)
- He, QL; Jiang, H; Zhang, F; Chen, HB; Tang, GL Bioorg Med Chem Lett 18: 3995-8 (2008)
- Cernaka, N; Ogawa, AK; Cheng, AC; Bao, J; Sharp, PP; Lopez, JA; Xiao, D; Tang, H US Patent US20240190892 (2024)
- Yang, WS; Qi, XR; Xu, QZ; Yuan, CH; Yi, YH; Tang, HF; Shen, L; Han, H Bioorg Med Chem 41: (2021)
- Wang, ZL; Pan, JX; Song, JJ; Tang, HH; Yu, HP; Li, XH; Li, N; Zhang, T; Zhang, R; Zhang, MN; Xu, B; Fang, Q; Wang, R J Med Chem 59: 10198-10208 (2016)
- Tang, HJ; Zhang, XW; Yang, L; Li, W; Li, JH; Wang, JX; Chen, J Eur J Med Chem 124: 637-648 (2016)
- Tsai, TY; Yeh, TK; Chen, X; Hsu, T; Jao, YC; Huang, CH; Song, JS; Huang, YC; Chien, CH; Chiu, JH; Yen, SC; Tang, HK; Chao, YS; Jiaang, WT J Med Chem 53: 6572-83 (2010)
- Liu, J; Li, AR; Wang, Y; Johnson, MG; Su, Y; Shen, W; Wang, X; Lively, S; Brown, M; Lai, S; Gonzalez Lopez De Turiso, F; Xu, Q; Van Lengerich, B; Schmitt, M; Fu, Z; Sun, Y; Lawlis, S; Seitz, L; Danao, J; Wait, J; Ye, Q; Tang, HL; Grillo, M; Collins, TL; Sullivan, TJ; Medina, JC ACS Med Chem Lett 2: 326-330 (2011)
- Clark, RD; Jahangir, A; Alam, M; Rocha, C; Lin, L; Bjorner, B; Nguyen, K; Grady, C; Williams, TJ; Stepan, G; Tang, HM; Ford, AP Bioorg Med Chem Lett 15: 1697-700 (2005)
- Tang J
- Zhang, YB; Wang, XL; Liu, W; Yang, YS; Tang, JF; Zhu, HL Bioorg Med Chem 20: 6356-65 (2012)
- Liu, HR; Liu, XJ; Fan, HQ; Tang, JJ; Gao, XH; Liu, WK Bioorg Med Chem 22: 6124-33 (2014)
- Tang, K; Jia, YN; Yu, B; Liu, HM Eur J Med Chem 204: (2020)
- Tang, KC; Mariuza, R; Coward, JK J Med Chem 24: 1277-84 (1982)
- Tang, KF; Abdullah, MP; Yusoff, K; Tan, WS J Med Chem 50: 5620-6 (2007)
- Tang, KJ; Zhao, Y; Tao, X; Li, J; Chen, Y; Holland, DC; Jin, TY; Wang, AY; Xiang, L J Nat Prod 86: 2592-2619 (2023)
- Dong, R; Zhou, X; Wang, M; Li, W; Zhang, JY; Zheng, X; Tang, KX; Sun, LP Bioorg Med Chem 29: (2021)
- Xie, F; Zhu, H; Zhang, H; Lang, Q; Tang, L; Huang, Q; Yu, L Eur J Med Chem 89: 310-9 (2014)
- Yu, B; Tang, LD; Li, YL; Song, SH; Ji, XL; Lin, MS; Wu, CF Bioorg Med Chem Lett 22: 110-4 (2011)
- Qiu, X; Zhao, GD; Tang, LQ; Liu, ZP Bioorg Med Chem Lett 24: 2465-8 (2014)
- Yang, T; Cui, X; Tang, M; Qi, W; Zhu, Z; Shi, M; Yang, L; Pei, H; Zhang, W; Xie, L; Xu, Y; Yang, Z; Chen, L J Med Chem 65: 3151-3172 (2022)
- Ma, X; Zhao, M; Tang, MH; Xue, LL; Zhang, RJ; Liu, L; Ni, HF; Cai, XY; Kuang, S; Hong, F; Wang, L; Chen, K; Tang, H; Li, Y; Peng, AH; Yang, JH; Pei, HY; Ye, HY; Chen, LJ J Nat Prod 83: 2950-2959 (2020)
- Feng, DM; Veber, DF; Connolly, TM; Condra, C; Tang, MJ; Nutt, RF J Med Chem 38: 4125-30 (1995)
- Tang, ML; Li, H; Ning, JF; Shen, X; Sun, X J Med Chem 65: 6690-6709 (2022)
- Xu, JY; Zeng, Y; Ran, Q; Wei, Z; Bi, Y; He, QH; Wang, QJ; Hu, S; Zhang, J; Tang, MY; Hua, WY; Wu, XM Bioorg Med Chem Lett 17: 2921-6 (2007)
- Wang, XD; Wei, W; Wang, PF; Yi, LC; Shi, WK; Xie, YX; Wu, LZ; Tang, N; Zhu, LS; Peng, J; Liu, C; Li, XH; Tang, S; Xiao, ZP; Zhu, HL Bioorg Med Chem 23: 4860-4865 (2015)
- Wang, HL; Katon, J; Balan, C; Bannon, AW; Bernard, C; Doherty, EM; Dominguez, C; Gavva, NR; Gore, V; Ma, V; Nishimura, N; Surapaneni, S; Tang, P; Tamir, R; Thiel, O; Treanor, JJ; Norman, MH J Med Chem 50: 3528-39 (2007)
- Tang, PC; Li, X; Li, X; Chen, Y; Wang, B; Zhu, Z US Patent US9566277 (2017)
- Chen, P; Zhou, Y; Li, X; Yang, J; Zheng, Z; Zou, Y; Li, X; Liao, J; Dai, J; Xu, Y; Yin, L; Chen, G; Gu, J; Ouyang, Q; Cho, WJ; Tang, Q; Liang, G J Med Chem 66: 6938-6958 (2023)
- Sebhat, IK; Martin, WJ; Ye, Z; Barakat, K; Mosley, RT; Johnston, DB; Bakshi, R; Palucki, B; Weinberg, DH; MacNeil, T; Kalyani, RN; Tang, R; Stearns, RA; Miller, RR; Tamvakopoulos, C; Strack, AM; McGowan, E; Cashen, DE; Drisko, JE; Hom, GJ; Howard, AD; MacIntyre, DE; van der Ploeg, LH; Patchett, AA; Nargund, RP J Med Chem 45: 4589-93 (2002)
- Li, ZJ; Ren, HY; Cui, MC; Deuther-Conrad, W; Tang, RK; Steinbach, J; Brust, P; Liu, BL; Jia, HM Bioorg Med Chem 19: 2911-7 (2011)
- Poduch, E; Bello, AM; Tang, S; Fujihashi, M; Pai, EF; Kotra, LP J Med Chem 49: 4937-45 (2006)
- Zhao, LX; Huang, SX; Tang, SK; Jiang, CL; Duan, Y; Beutler, JA; Henrich, CJ; McMahon, JB; Schmid, T; Blees, JS; Colburn, NH; Rajski, SR; Shen, B J Nat Prod 74: 1990-5 (2011)
- Gleave, RJ; Walter, DS; Beswick, PJ; Fonfria, E; Michel, AD; Roman, SA; Tang, SP Bioorg Med Chem Lett 20: 4951-4 (2010)
- Yang, JJ; Yu, WW; Hu, LL; Liu, WJ; Lin, XH; Wang, W; Zhang, Q; Wang, PL; Tang, SW; Wang, X; Liu, M; Lu, W; Zhang, HK J Med Chem 63: 569-590 (2020)
- Salvino, JM; Mathew, R; Kiesow, T; Narensingh, R; Mason, HJ; Dodd, A; Groneberg, R; Burns, CJ; McGeehan, G; Kline, J; Orton, E; Tang, SY; Morrisette, M; Labaudininiere, R Bioorg Med Chem Lett 10: 1637-40 (2000)
- Wang, Y; Huang, Y; Yu, F; Tang, T US Patent US10851050 (2020)
- Hunt, KW; Cook, AW; Watts, RJ; Clark, CT; Vigers, G; Smith, D; Metcalf, AT; Gunawardana, IW; Burkard, M; Cox, AA; Geck Do, MK; Dutcher, D; Thomas, AA; Rana, S; Kallan, NC; DeLisle, RK; Rizzi, JP; Regal, K; Sammond, D; Groneberg, R; Siu, M; Purkey, H; Lyssikatos, JP; Marlow, A; Liu, X; Tang, TP J Med Chem 56: 3379-403 (2013)
- Spergel, SH; Mertzman, ME; Kempson, J; Guo, J; Stachura, S; Haque, L; Lippy, JS; Zhang, RF; Galella, M; Pitt, S; Shen, G; Fura, A; Gillooly, K; McIntyre, KW; Tang, V; Tokarski, J; Sack, JS; Khan, J; Carter, PH; Barrish, JC; Nadler, SG; Salter-Cid, LM; Schieven, GL; Wrobleski, ST; Pitts, WJ ACS Med Chem Lett 10: 306-311 (2019)
- Guo, L; Liu, J; Nie, X; Wang, T; Ma, ZX; Yin, D; Tang, W Bioorg Med Chem Lett 75: (2022)
- Charton, J; Gauriot, M; Guo, Q; Hennuyer, N; Marechal, X; Dumont, J; Hamdane, M; Pottiez, V; Landry, V; Sperandio, O; Flipo, M; Buee, L; Staels, B; Leroux, F; Tang, WJ; Deprez, B; Deprez-Poulain, R Eur J Med Chem 79: 184-93 (2014)
- Zhang, XR; Wang, HW; Tang, WL; Zhang, Y; Yang, H; Hu, DX; Ravji, A; Marchand, C; Kiselev, E; Ofori-Atta, K; Agama, K; Pommier, Y; An, LK J Med Chem 61: 9908-9930 (2018)
- Ganin, H; Tang, X; Meijler, MM Bioorg Med Chem Lett 19: 3941-4 (2009)
- He, XC; Feng, S; Wang, ZF; Shi, Y; Zheng, S; Xia, Y; Jiang, H; Tang, XC; Bai, D Bioorg Med Chem 15: 1394-408 (2007)
- Tao, YH; Yuan, Z; Tang, XQ; Xu, HB; Yang, XL Bioorg Med Chem Lett 16: 592-5 (2005)
- Taylor, AM; Williams, BR; Giordanetto, F; Kelley, EH; Lescarbeau, A; Shortsleeves, K; Tang, Y; Walters, WP; Arrazate, A; Bowman, C; Brophy, E; Chan, EW; Deshmukh, G; Greisman, JB; Hunsaker, TL; Kipp, DR; Saenz Lopez-Larrocha, P; Maddalo, D; Martin, IJ; Maragakis, P; Merchant, M; Murcko, M; Nisonoff, H; Nguyen, V; Nguyen, V; Orozco, O; Owen, C; Pierce, L; Schmidt, M; Shaw, DE; Smith, S; Therrien, E; Tran, JC; Watters, J; Waters, NJ; Wilbur, J; Willmore, L J Med Chem 66: 13384-13399 (2023)
- Liu, JZ; Zhang, SE; Nie, F; Yang, Y; Tang, YB; Yin, W; Tian, JY; Ye, F; Xiao, Z Bioorg Med Chem Lett 23: 6217-22 (2013)
- Zhao, W; Zhou, C; Guan, ZY; Yin, P; Chen, F; Tang, YJ ACS Chem Biol 12: 746-752 (2017)
- Pan, ZX; He, X; Chen, YY; Tang, WJ; Shi, JB; Tang, YL; Song, BA; Li, J; Liu, XH Eur J Med Chem 80: 278-84 (2014)
- Hu, DK; Zhao, DS; He, M; Jin, HW; Tang, YM; Zhang, LH; Song, GP; Cui, ZN Bioorg Med Chem Lett 28: 3276-3280 (2018)
- Shi, ZH; Li, NG; Shi, QP; Tang, H; Tang, YP; Li, W; Yin, L; Yang, JP; Duan, JA Bioorg Med Chem Lett 23: 1206-11 (2013)
- Qiao, Z; Luo, J; Tang, YQ; Zhou, Q; Qi, H; Yin, Z; Tang, X; Zhu, W; Zhang, Y; Wei, N; Wang, K J Med Chem 64: 16282-16292 (2021)
- Wolkenberg, SE; Zhao, Z; Kapitskaya, M; Webber, AL; Petrukhin, K; Tang, YS; Dean, DC; Hartman, GD; Lindsley, CW Bioorg Med Chem Lett 16: 5001-4 (2006)
- Tang, YT; Gao, R; Havranek, JJ; Groisman, EA; Stock, AM; Marshall, GR Chem Biol Drug Des 79: 1007-17 (2012)
- Tang, YW; Shi, CJ; Yang, HL; Cai, P; Liu, QH; Yang, XL; Kong, LY; Wang, XB Eur J Med Chem 163: 307-319 (2019)
- Zhang, Z; Li, K; Zhang, GY; Tang, YZ; Jin, Z Eur J Med Chem 204: (2020)
- Tang Z
- Ma, YZ; Tang, ZB; Sang, CY; Qi, ZY; Hui, L; Chen, SW Bioorg Med Chem Lett 29: 694-699 (2019)
- Liu, J; Fu, Z; Wang, Y; Schmitt, M; Huang, A; Marshall, D; Tonn, G; Seitz, L; Sullivan, T; Lucy Tang, H; Collins, T; Medina, J Bioorg Med Chem Lett 19: 6419-23 (2009)
- Finch, H; Pegg, NA; McLaren, J; Lowdon, A; Bolton, R; Coote, SJ; Dyer, U; Montana, JG; Owen, MR; Dowle, M; Buckley, D; Ross, BC; Campbell, C; Dix, C; Mooney, C; Man-Tang, C; Patel, C Bioorg Med Chem Lett 8: 2955-60 (1999)
- Cherukury, M; Lin, H; Yu, SC; Phang, R; Rajan, YC; Tang-Liu, DD; White, AD; Malone, T; Beresis, R US Patent US10870635 (2020)
- Biamonte, MA; Van de Water, R; Arndt, JW; Scannevin, RH; Perret, D; Lee, WC J Med Chem 53: 3-17 (2010)