CrossRef enabled

PAC Archives

Archive →

Pure Appl. Chem., 1984, Vol. 56, No. 11, pp. 1645-1657

Mononuclear active sites of molybdoenzymes: chemical approaches to structure and reactivity

R. H. Holm and J. M. Berg

CrossRef Cited-by theme picture

CrossRef Cited-by Linking

  • Bera Manindranath, Patra Ayan: Study of potential binding of biologically important sugars with a dinuclear cobalt(II) complex. Carbohydrates Research 2011, 346, 733. <>
  • Heinze Katja, Fischer Andreas: Oxidomolybdenum(IV), -(V), -(VI) Complexes with Relevance to Molybdenum Enzymes: Oxygen Atom Transfer, Redox Chemistry and EPR Spectroscopy. Euro J Inorg Chem 2010, 2010, 1939. <>
  • Guo Jianyu, Lu Yan: Metal Ion Interactions with Sugars: Crystal Structure and FT-IR Study of the EuCl3-Ribose Complex. J Carbohydr Chem 2010, 29, 10. <>
  • Rana Arindam, Sutradhar Manas, Mandal Sudhanshu Sekhar, Ghosh Saktiprosad: Synthesis, chemical and electrochemical studies of complexes of a tridentate ONS chelating ligand built around the elusive [MoVIOS]2+ core. J Coord Chem 2009, 62, 3522. <>
  • Pramanik Nikhil Ranjan, Ghosh Saktiprosad, Raychaudhuri Tapas Kumar, Mandal Sudhanshu Sekhar: Synthesis, chemical, and electrochemical studies of oxomolybdenum(IV) complexes with two tridentate ONS donor ligands. J Coord Chem 2009, 62, 3845. <>
  • Zhuo Kelei, Liu Hongxun, Zhang Xinkuan, Liu Yaohui, Wang Jianji: A 13C NMR study on the interactions of calcium chloride/potassium chloride with pyranosides in D2O. Carbohydrates Research 2008, 343, 2428. <>
  • Zhuo Kelei, Liu Hongxun, Zhang Honghao, Liu Yaohui, Wang Jianji: Activity coefficients of CaCl2 in (maltose+water) and (lactose+water) mixtures at 298.15K. K J CHEM THERMODYN 2008, 40, 889. <>
  • Mandal Debdas, Ganguly Rakesh, Chatterjee Pabitra Baran, Endo Akira, Weakley Timothy J. R., Chaudhury Muktimoy: cis-Dioxomolybdenum(VI) complexes of sterically encumbered phenol-based tetradentate N2O2 ligands: Structural, spectroscopic, and electrochemical studies. Struct Chem 2007, 18, 187. <>
  • Dąbrowska Aleksandra, Jacewicz Dagmara, Chylewska Agnieszka, Wojtczak Andrzej, Chmurzyński Lech: Crystal structures of ethyl 3-azido-2,3-dideoxy-d-arabino-hexopyranoside anomers. Carbohydrates Research 2007, 342, 1450. <>
  • Zhuo Kelei, Liu Guanjie, Wang Yaping, Ren Qiuhe, Wang Jianji: Activity coefficients and conductivities of calcium nitrate in glucose/galactose–water mixtures at 298.15K. Fluid Phase Equilb 2007, 258, 78. <>
  • Zhuo Kelei, Wang Yaping, Liu Qian, Zhang Honghao, Wang Jianji: Thermodynamic and Conductivity Properties of Cd(NO3)2 in monosaccharide (D-glucose, D-galactose, D-xylose, D-ribose) + water systems at 298.15K. J Solution Chem 2006, 35, 753. <>
  • Lu Yan, Guo Jianyu: Metal–ion interactions with carbohydrates. Crystal structure and FT-IR study of the SmCl3–ribose complex. Carbohydrates Research 2006, 341, 610. <>
  • Lu Yan, Guo Jianyu: Metal-ion interactions with sugars. Crystal structure and FT-IR study of PrCl3–d-ribose complex. Carbohydrates Research 2006, 341, 683. <>
  • Dinda Rupam, Ghosh Saktiprosad, Falvello Larry R., Tomás Milagros, Mak Thomas C.W.: Synthesis, structure, and reactivity of some new dipyridyl and diamine-bridged dinuclear oxomolybdenum(VI) complexes. J Polyhedron 2006, 25, 2375. <>
  • Yang Limin, Xu Yizhuang, Wang Yalei, Zhang Shiwei, Weng Shifu, Zhao Kui, Wu Jinguang: Interactions between metal ions and carbohydrates. The coordination behavior of neutral erythritol to lanthanum and erbium ions. Carbohydrates Research 2005, 340, 2773. <>
  • Guo Jianyu, Zhang Xiangmin: Metal–ion interactions with sugars. The crystal structure and FTIR study of an SrCl2–fructose complex. Carbohydrates Research 2004, 339, 1421. <>
  • Lu Yan, Deng Guocai, Miao Fangming, Li Zhengming: Metal-ion interactions with sugars. Crystal structures and FT-IR studies of the LaCl3–ribopyranose and CeCl3–ribopyranose complexes. Carbohydrates Research 2004, 339, 1689. <>
  • Pramanik Nikhil Ranjan, Ghosh Saktiprosad, Raychaudhuri Tapas Kumar, Ray Sibdas, Butcher Ray J., Mandal Sudhanshu Sekhar: Synthesis, characterization and crystal structure of oxomolybdenum (VI) and (IV) complexes of some tridentate ONS donor ligands. J Polyhedron 2004, 23, 1595. <>
  • Lu Yan, Deng Guocai, Miao Fangming, Li Zhengming: Metal ion interactions with sugars. The crystal structure and FT-IR study of the NdCl3–ribose complex. Carbohydrates Research 2003, 338, 2913. <>
  • Keshavan B, Gowda Kempe: Dioxobridged complexes of molybdenum (IV) and tungsten (IV) with N-alkylphenothiazines and their interactions with L-cysteine and L-histidine. J Chem Sci 2001, 113, 165. <>
  • Ali MD Afsar, Roy Parag S: Functional model of oxomolybdoenzymes: Synthesis and characterization of a molybdenum complex with sulphur and pterin ligands exhibiting saturation kinetics with pyridine N-oxide. J Chem Sci 2001, 113, 77. <>
  • Yang Limin, Zhao Ying, Tian Wen, Jin Xianglin, Weng Shifu, Wu Jinguang: Complexation of trivalent lanthanide cations by galactitol in the solid state. The crystal structure and an FT-IR study of 2NdCl3·galactitol·14H2O. Carbohydrates Research 2001, 330, 125. <>
  • Braier N.C., Jishi R.A.: Density functional studies of Cu2+ and Ni2+ binding to chitosan. Journal of Molecular Structure: THEOCHEM 2000, 499, 51. <>
  • Junicke Henrik, Bruhn Clemens, Wagner Christoph, Steinborn Dirk: Synthesis and characterization of [PtMe3L(H2O)]BF4·H2O (L=3-O-acetyl-1,2-O-isopropylidene-α-D-glucofuranose). Chem Heterocycl Compd 1999, 35, 984. <>
  • Sible Emily M., Brimmer Steven P., Leary Julie A.: Interaction of first row transition metals with α1-3, α1-6 mannotriose and conserved trimannosyl core oligosaccharides: A comparative electrospray ionization study of doubly and singly charged complexes. j am soc mass spectrom 1997, 8, 32. <>
  • Kukushkin Vadim Yu.: Metal-ion mediated deoxygenation of sulfoxides. Coord Chem Rev - 1995, 139, 375. <>
  • Whitfield Dennis M., Stojkovski Stojan, Sarkar Bibudhendra: Metal coordination to carbohydrates. Structures and function. Coord Chem Rev - 1993, 122, 171. <>
  • Mondal Jalal U., Schultz Franklin A.: Electrochemistry of six- and seven-coordinate MoO4+ complexes. A dramatic influence of coordination number on electron transfer reversibility and metal-centered reduction potential. Inorg Chim Ada 1989, 157, 5. <>
  • Keshavan B., Seetharamappa J.: Molybdenum(IV) dimeric complexes with N-alkylphenothiazines and their interactions with L-cysteine, L-histidine, 1,10-phenanthroline and 2,2′-bipyridyl. J Polyhedron 1987, 6, 465. <>
  • Chaudhury Muktimoy: Seven- and eight-coordinated complexes of Mo(V) and Mo(IV) with 2-amino-1-carbodithioato ligands: synthesis, spectra and electrochemistry. J Polyhedron 1986, 5, 387. <>