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- Target discovery of acivicin in cancer cells elucidates its mechanism of growth inhibition. Johannes Kreuzer, Nina C. Bach, Daniel Forler, Stephan A. Sieber
, Chem. Sci.
, 2015
, 6
, 237
- The biological targets of acivicin inspired 3-chloro- and 3-bromodihydroisoxazole scaffolds. Ronald Orth, Thomas Böttcher, Stephan A. Sieber
, Chem. Commun.
, 2010
, 46
, 8475
- Electrophilic natural products and their biological targets. Malte Gersch, Johannes Kreuzer, Stephan A. Sieber
, Nat. Prod. Rep.
, 2012
, 29
, 659
- An efficient synthetic route to l-γ-methyleneglutamine and its amide derivatives, and their selective anticancer activity. Md Imran Hossain, Ajit G. Thomas, Fakhri Mahdi, Amna T. Adam, Nicholas S. Akins, Morgan M. Woodard, Jason J. Paris, Barbara S. Slusher, Hoang V. Le
, RSC Adv.
, 2021
, 11
, 7115
- Total synthesis of the racemic 3-methyl analogue of the antitumour agent acivicin. Zsuzsanna Gombos, József Nyitrai, Pál Kolonits, Mária Kajtár-Peredy
, J. Chem. Soc., Perkin Trans. 1
, 1989
, 1915
- Exploring cysteine regulation in cancer cell survival with a highly specific “Lock and Key” fluorescent probe for cysteine. Jing Liu, Mengxing Liu, Hongxing Zhang, Xuehong Wei, Juanjuan Wang, Ming Xian, Wei Guo
, Chem. Sci.
, 2019
, 10
, 10065
- SLC transporters: structure, function, and drug discovery. Claire Colas, Peter Man-Un Ung, Avner Schlessinger
, Med. Chem. Commun.
, 2016
, 7
, 1069
- 7 Reaction mechanisms. Part (iii) Bioorganic enzyme-catalyzed reactions. Nigel G. J. Richards
, Annu. Rep. Prog. Chem., Sect. B: Org. Chem.
, 2001
, 97
, 305
- Chemical proteomics approaches for identifying the cellular targets of natural products. M. H. Wright, S. A. Sieber
, Nat. Prod. Rep.
, 2016
, 33
, 681
- An analyte-triggered artificial peroxidase system based on dimanganese complex for a versatile enzyme assay. Suji Lee, Min Su Han
, Chem. Commun.
, 2021
, 57
, 9450