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Journal Abstract Search


475 related items for PubMed ID: 26638009

  • 1. Second sphere control of spin state: Differential tuning of axial ligand bonds in ferric porphyrin complexes by hydrogen bonding.
    Mittra K, Sengupta K, Singha A, Bandyopadhyay S, Chatterjee S, Rana A, Samanta S, Dey A.
    J Inorg Biochem; 2016 Feb; 155():82-91. PubMed ID: 26638009
    [Abstract] [Full Text] [Related]

  • 2. Effect of axial ligand, spin state, and hydrogen bonding on the inner-sphere reorganization energies of functional models of cytochrome P450.
    Bandyopadhyay S, Rana A, Mittra K, Samanta S, Sengupta K, Dey A.
    Inorg Chem; 2014 Oct 06; 53(19):10150-8. PubMed ID: 25238648
    [Abstract] [Full Text] [Related]

  • 3. Effect of hydrogen bonding on innocent and non-innocent axial ligands bound to iron porphyrins.
    Singha A, Mittra K, Dey A.
    Dalton Trans; 2019 May 28; 48(21):7179-7186. PubMed ID: 30564827
    [Abstract] [Full Text] [Related]

  • 4. EPR, resonance Raman, and DFT calculations on thiolate- and imidazole-bound iron(III) porphyrin complexes: role of the axial ligand in tuning the electronic structure.
    Das PK, Chatterjee S, Samanta S, Dey A.
    Inorg Chem; 2012 Oct 15; 51(20):10704-14. PubMed ID: 23013308
    [Abstract] [Full Text] [Related]

  • 5. Electronic structure of six-coordinate iron(III)-porphyrin NO adducts: the elusive iron(III)-NO(radical) state and its influence on the properties of these complexes.
    Praneeth VK, Paulat F, Berto TC, George SD, Näther C, Sulok CD, Lehnert N.
    J Am Chem Soc; 2008 Nov 19; 130(46):15288-303. PubMed ID: 18942830
    [Abstract] [Full Text] [Related]

  • 6. Resonance Raman studies on the ligand-iron interactions in hemoproteins and metallo-porphyrins.
    Kitagawa T, Ozaki Y, Kyogoku Y.
    Adv Biophys; 1978 Nov 19; 11():153-96. PubMed ID: 27953
    [Abstract] [Full Text] [Related]

  • 7. Resonance Raman, electron paramagnetic resonance, and density functional theory calculations of a phenolate-bound iron porphyrin complex: electrostatic versus covalent contribution to bonding.
    Das PK, Dey A.
    Inorg Chem; 2014 Jul 21; 53(14):7361-70. PubMed ID: 24987928
    [Abstract] [Full Text] [Related]

  • 8. Density functional theory applied to a difference in pathways taken by the enzymes cytochrome P450 and superoxide reductase: spin States of ferric hydroperoxo intermediates and hydrogen bonds from water.
    Surawatanawong P, Tye JW, Hall MB.
    Inorg Chem; 2010 Jan 04; 49(1):188-98. PubMed ID: 19968237
    [Abstract] [Full Text] [Related]

  • 9. Electronic ground states of iron porphyrin and of the first species in the catalytic reaction cycle of cytochrome P450s.
    Groenhof AR, Swart M, Ehlers AW, Lammertsma K.
    J Phys Chem A; 2005 Apr 21; 109(15):3411-7. PubMed ID: 16833677
    [Abstract] [Full Text] [Related]

  • 10. Spin Interconversion of Heme-Peroxo-Copper Complexes Facilitated by Intramolecular Hydrogen-Bonding Interactions.
    Schaefer AW, Ehudin MA, Quist DA, Tang JA, Karlin KD, Solomon EI.
    J Am Chem Soc; 2019 Mar 27; 141(12):4936-4951. PubMed ID: 30836005
    [Abstract] [Full Text] [Related]

  • 11. H-bonding networks of the distal residues and water molecules in the active site of Thermobifida fusca hemoglobin.
    Nicoletti FP, Droghetti E, Howes BD, Bustamante JP, Bonamore A, Sciamanna N, Estrin DA, Feis A, Boffi A, Smulevich G.
    Biochim Biophys Acta; 2013 Sep 27; 1834(9):1901-9. PubMed ID: 23467007
    [Abstract] [Full Text] [Related]

  • 12. Molecular designs for controlling the local environments around metal ions.
    Cook SA, Borovik AS.
    Acc Chem Res; 2015 Aug 18; 48(8):2407-14. PubMed ID: 26181849
    [Abstract] [Full Text] [Related]

  • 13. Spectroscopy of non-heme iron thiolate complexes: insight into the electronic structure of the low-spin active site of nitrile hydratase.
    Kennepohl P, Neese F, Schweitzer D, Jackson HL, Kovacs JA, Solomon EI.
    Inorg Chem; 2005 Mar 21; 44(6):1826-36. PubMed ID: 15762709
    [Abstract] [Full Text] [Related]

  • 14. Spectroscopic properties and electronic structure of five- and six-coordinate iron(II) porphyrin NO complexes: Effect of the axial N-donor ligand.
    Praneeth VK, Näther C, Peters G, Lehnert N.
    Inorg Chem; 2006 Apr 03; 45(7):2795-811. PubMed ID: 16562937
    [Abstract] [Full Text] [Related]

  • 15. Symmetry and bonding in metalloporphyrins. A modern implementation for the bonding analyses of five- and six-coordinate high-spin iron(III)-porphyrin complexes through density functional calculation and NMR spectroscopy.
    Cheng RJ, Chen PY, Lovell T, Liu T, Noodleman L, Case DA.
    J Am Chem Soc; 2003 Jun 04; 125(22):6774-83. PubMed ID: 12769588
    [Abstract] [Full Text] [Related]

  • 16. Electronic structures of six-coordinate ferric porphyrin complexes with weak axial ligands: usefulness of 13C NMR chemical shifts.
    Hoshino A, Ohgo Y, Nakamura M.
    Inorg Chem; 2005 Oct 17; 44(21):7333-44. PubMed ID: 16212360
    [Abstract] [Full Text] [Related]

  • 17. Structural, NMR, and EPR studies of S = (1)/(2) and S = (3)/(2) Fe(III) bis(4-cyanopyridine) complexes of dodecasubstituted porphyrins.
    Yatsunyk LA, Walker FA.
    Inorg Chem; 2004 Jan 26; 43(2):757-77. PubMed ID: 14731040
    [Abstract] [Full Text] [Related]

  • 18. Versatility of heme coordination demonstrated in a fungal peroxidase. Absorption and resonance Raman studies of Coprinus cinereus peroxidase and the Asp245-->Asn mutant at various pH values.
    Smulevich G, Neri F, Marzocchi MP, Welinder KG.
    Biochemistry; 1996 Aug 13; 35(32):10576-85. PubMed ID: 8756714
    [Abstract] [Full Text] [Related]

  • 19. Exploring second coordination sphere effects in nitric oxide synthase.
    McQuarters AB, Speelman AL, Chen L, Elmore BO, Fan W, Feng C, Lehnert N.
    J Biol Inorg Chem; 2016 Dec 13; 21(8):997-1008. PubMed ID: 27686338
    [Abstract] [Full Text] [Related]

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