| Ident. | Authors (with country if any) | Title |
|---|
| 000021 (2020) |
Zhuping Jin [Canada, République populaire de Chine] ; Quanxi Zhang [Canada, République populaire de Chine] ; Eden Wondimu [Canada] ; Richa Verma [Canada] ; Ming Fu [Canada] ; Tian Shuang [Canada] ; Hassan Mustafa Arif [Canada] ; Lingyun Wu [Canada] ; Rui Wang [Canada] | H2S-stimulated bioenergetics in chicken erythrocytes and the underlying mechanism. |
| 000041 (2020) |
Patrycja Bronowicka-Adamska [Pologne] ; Anna Bentke [Pologne] ; Małgorzata Lasota [Pologne] ; Maria Wr Bel [Pologne] | Effect of S-Allyl -L-Cysteine on MCF-7 Cell Line 3-Mercaptopyruvate Sulfurtransferase/Sulfane Sulfur System, Viability and Apoptosis. |
| 000046 (2020) |
Noriyuki Akahoshi [Japon] ; Tatsuro Minakawa [Japon] ; Masashi Miyashita [Japon] ; Uran Sugiyama [Japon] ; Chihiro Saito [Japon] ; Rintaro Takemoto [Japon] ; Akihiro Honda [Japon] ; Waka Kamichatani [Japon] ; Shotaro Kamata [Japon] ; Yasumi Anan [Japon] ; Isao Ishii [Japon] | Increased Urinary 3-Mercaptolactate Excretion and Enhanced Passive Systemic Anaphylaxis in Mice Lacking Mercaptopyruvate Sulfurtransferase, a Model of Mercaptolactate-Cysteine Disulfiduria. |
| 000052 (2019) |
Patrycja Bronowicka-Adamska [Pologne] ; Tomasz Hutsch [Pologne] ; Marta Gawry Kopczy Ska [Pologne] ; Klaudia Maksymiuk [Pologne] ; Maria Wr Bel [Pologne] | Hydrogen sulfide formation in experimental model of acute pancreatitis. |
| 000058 (2019) |
Marta Kaczor-Kami Ska [Pologne] ; Kamil Kami Ski [Pologne] ; Krystyna Stali Ska [Pologne] ; Maria Wr Bel [Pologne] ; Arleta Feldman [États-Unis] | Effect of glycosaminoglycans accumulation on the non-oxidative sulfur metabolism in mouse model of Sanfilippo syndrome, type B. |
| 000059 (2020) |
Naoki Shigi [Japon] ; Masaki Horitani [Japon] ; Kenjyo Miyauchi [Japon] ; Tsutomu Suzuki [Japon] ; Misao Kuroki [Japon] | An ancient type of MnmA protein is an iron-sulfur cluster-dependent sulfurtransferase for tRNA anticodons. |
| 000067 (2019) |
A N Meza [Brésil] ; C C N. Cambui [Brésil] ; A C R. Moreno [Brésil] ; M R Fessel [Brésil] ; A. Balan [Brésil] | Mycobacterium tuberculosis CysA2 is a dual sulfurtransferase with activity against thiosulfate and 3-mercaptopyruvate and interacts with mammalian cells. |
| 000080 (2019) |
Honami Echizen [Japon] ; Kenjiro Hanaoka [Japon] | [Development of fluorescent probes for detecting reactive sulfur species and their application to development of inhibitors for 3MST]. |
| 000097 (2019) |
Karim Zuhra [Italie] ; Catarina S. Tomé [Portugal] ; Letizia Masi [Italie] ; Giorgio Giardina [Italie] ; Giulia Paulini [Italie] ; Francesca Malagrin [Italie] ; Elena Forte [Italie] ; João B. Vicente [Portugal] ; Alessandro Giuffrè [Italie] | N-Acetylcysteine Serves as Substrate of 3-Mercaptopyruvate Sulfurtransferase and Stimulates Sulfide Metabolism in Colon Cancer Cells. |
| 000105 (2019) |
Bey Fen Leo [Royaume-Uni, Malaisie] ; Sarah Fearn [Royaume-Uni] ; Daniel Gonzalez-Cater [Japon] ; Ioannis Theodorou [Royaume-Uni] ; Pakatip Ruenraroengsak [Royaume-Uni] ; Angela E. Goode [Royaume-Uni] ; David Mcphail [Royaume-Uni] ; David T. Dexter [Japon] ; Milo Shaffer [Royaume-Uni] ; Kian F. Chung [Royaume-Uni] ; Alexandra E. Porter [Royaume-Uni] ; Mary P. Ryan [Royaume-Uni] | Label-Free Time-of-Flight Secondary Ion Mass Spectrometry Imaging of Sulfur-Producing Enzymes inside Microglia Cells following Exposure to Silver Nanowires. |
| 000121 (2019) |
Jerzy Bełtowski [Pologne] | Synthesis, Metabolism, and Signaling Mechanisms of Hydrogen Sulfide: An Overview. |
| 000126 (2019) |
Nathaniel L. Hepowit [États-Unis] ; Julie A. Maupin-Furlow [États-Unis] | Rhodanese-Like Domain Protein UbaC and Its Role in Ubiquitin-Like Protein Modification and Sulfur Mobilization in Archaea. |
| 000129 (2019) |
Benjamin Selles [France] ; Anna Moseler [France] ; Nicolas Rouhier [France] ; Jérémy Couturier | Rhodanese domain-containing sulfurtransferases: multifaceted proteins involved in sulfur trafficking in plants. |
| 000138 (2019) |
Florian Leisinger [Suisse] ; Reto Burn [Suisse] ; Marcel Meury [Suisse] ; Peer Lukat [Allemagne] ; Florian P. Seebeck [Suisse] | Structural and Mechanistic Basis for Anaerobic Ergothioneine Biosynthesis. |
| 000145 (2019) |
Yannika Neukranz ; Annika Kotter [Allemagne] ; Lena Beilschmidt ; Zvonimir Marelja ; Mark Helm [Allemagne] ; Ralph Gr F ; Silke Leimkühler | Analysis of the Cellular Roles of MOCS3 Identifies a MOCS3-Independent Localization of NFS1 at the Tips of the Centrosome. |
| 000184 (2018) |
Shunsuke Watanabe [Japon] ; Muneo Sato [Japon] ; Yuji Sawada [Japon] ; Maho Tanaka [Japon] ; Akihiro Matsui [Japon] ; Yuri Kanno [Japon] ; Masami Yokota Hirai [Japon] ; Motoaki Seki [Japon] ; Atsushi Sakamoto [Japon] ; Mitsunori Seo [Japon] | Arabidopsis molybdenum cofactor sulfurase ABA3 contributes to anthocyanin accumulation and oxidative stress tolerance in ABA-dependent and independent ways. |
| 000187 (2019) |
Arthur J. Arcinas [États-Unis] ; Stephanie J. Maiocco ; Sean J. Elliott ; Alexey Silakov [États-Unis] ; Squire J. Booker [États-Unis] | Ferredoxins as interchangeable redox components in support of MiaB, a radical S-adenosylmethionine methylthiotransferase. |
| 000206 (2018) |
Lizhi Tao [États-Unis] ; Troy A. Stich [États-Unis] ; Corey J. Fugate [États-Unis] ; Joseph T. Jarrett [États-Unis] ; R David Britt [États-Unis] | EPR-Derived Structure of a Paramagnetic Intermediate Generated by Biotin Synthase BioB. |
| 000210 (2018) |
Halina Jurkowska [Pologne] ; Maria Wr Bel [Pologne] | Inhibition of Human Neuroblastoma Cell Proliferation by N-acetyl-L-cysteine as a Result of Increased Sulfane Sulfur Level. |
| 000221 (2018) |
Julia D. Cramer [États-Unis] ; Joseph T. Jarrett [États-Unis] | Purification, Characterization, and Biochemical Assays of Biotin Synthase From Escherichia coli. |
| 000226 (2018) |
Tamaki Suganuma [États-Unis] ; Selene K. Swanson [États-Unis] ; Madelaine Gogol [États-Unis] ; Timothy J. Garrett [États-Unis] ; Juliana Conkright-Fincham [États-Unis] ; Laurence Florens [États-Unis] ; Michael P. Washburn [États-Unis] ; Jerry L. Workman [États-Unis] | MPTAC Determines APP Fragmentation via Sensing Sulfur Amino Acid Catabolism. |
