Publikationen von Gangfeng Huang

Kaltschnee, L.; Pravdivtsev, A. N.; Gehl, M.; Huang, G.; Stoychev, G. L.; Riplinger, C.; Keitel, M.; Neese, F.; Hövener, J.-B.; Auer, A. A. et al.; Griesinger, C.; Shima, S.; Glöggler, S.: Parahydrogen-enhanced magnetic resonance identification of intermediates in [Fe]-hydrogenase catalysis. Nature Catalysis 7 (12), S. 1417 - 1429 (2024)

Pan, H.-J.; Huang, G.; Wodrich, M. D.; Tirani, F. F.; Ataka, K.; Shima, S.; Hu, X.: Diversifying metal-ligand cooperative catalysis in semi-synthetic [Mn]-hydrogenases. Angewandte Chemie International Edition 60 (24), S. 13350 - 13357 (2021)

Shima, S.; Huang, G.; Wagner, T.; Ermler, U.: Structural Basis of Hydrogenotrophic Methanogenesis. Annual Review of Microbiology 74, S. 713 - 733 (2020)

Huang, G.; Wagner, T.; Demmer, U.; Warkentin, E.; Ermler, U.; Shima, S.: The Hydride Transfer Process in NADP-dependent Methylene-tetrahydromethanopterin Dehydrogenase. Journal of Molecular Biology (London) 432 (7), S. 2042 - 2054 (2020)

Huang, G.; Wagner, T.; Ermler, U.; Shima, S.: Methanogenesis involves direct hydride transfer from H₂ to an organic substrate. Nature Reviews Chemistry 4 (2), S. 213 - 221 (2020)

Huang, G.; Arriaza Gallardo, F. J.; Wagner, T.; Shima, S.: Crystal structures of [Fe]-hydrogenase from Methanolacinia paynteri suggest a path of the FeGP-cofactor incorporation process. Inorganics 8 (9), 50 (2020)

Watanabe, T.; Wagner, T.; Huang, G.; Kahnt, J.; Ataka, K.; Ermler, U.; Shima, S.: The Bacterial [Fe]‐Hydrogenase Paralog HmdII Uses Tetrahydrofolate Derivatives as Substrates. Angewandte Chemie International Edition in English 58 (11), S. 3506 - 3510 (2019)

Huang, G.; Wagner, T.; Wodrich, M. D.; Ataka, K.; Bill, E.; Ermler, U.; Hu, X.; Shima, S.: The atomic-resolution crystal structure of activated [Fe]-hydrogenase. Nature Catalysis 2 (6), S. 537 - 543 (2019)

Pan, H.-J.; Huang, G.; Wodrich, M. D.; Tirani, F. F.; Ataka, K.; Shima, S.; Hu, X.: A catalytically active [Mn]-hydrogenase incorporating a non-native metal cofactor. NATURE CHEMISTRY 11 (7), S. 669 - 675 (2019)

Wagner, T.; Huang, G.; Ermler, U.; Shima, S.: How [Fe]-Hydrogenase from Methanothermobacter is Protected Against Light and Oxidative Stress. ANGEWANDTE CHEMIE-INTERNATIONAL EDITION 57 (46), S. 15056 - 15059 (2018)

Huang, G.; Wagner, T.; Ermler, U.; Bill, E.; Ataka, K.; Shima, S.: Dioxygen Sensitivity of [Fe]-Hydrogenase in the Presence of Reducing Substrates. ANGEWANDTE CHEMIE-INTERNATIONAL EDITION 57 (18), S. 4917 - 4920 (2018)

Bai, L.; Fujishiro, T.; Huang, G.; Koch, J.; Takabayashi, A.; Yokono, M.; Tanaka, A.; Xu, T.; Hu, X.; Ermler, U. et al.; Shima, S.: Towards artificial methanogenesis: biosynthesis of the [Fe]-hydrogenase cofactor and characterization of the semisynthetic hydrogenase. Faraday Discussions 198, S. 37 - 58 (2017)

Huang, G.: Studies on catalytic mechanism of [Fe]-hydrogenase from methanogenic archaea based on crystal structures. Dissertation, Philipps-Universität Marburg, Marburg (2019)

Kaltschnee, L.; Pravdivtsev, A. N.; Gehl, M.; Huang, G.; Stoychev, G. L.; Riplinger, C.; Keitel, M.; Neese, F.; Hövener, J.-B.; Auer, A. A. et al.; Griesinger, C.; Shima, S.; Glöggler, S.: Sensitivity-enhanced magnetic resonance reveals hydrogen intermediates during active [Fe]-hydrogenase catalysis. bioRxiv: the preprint server for biology, 2023.05.10.540199 (2023)