Authors:
HOWARD WA
BAYOMI A
NATARAJAN E
AZIZA MA
ELAHMADY O
GRISSOM CB
WEST FG
Citation: Wa. Howard et al., SONOLYSIS PROMOTES INDIRECT CO-C POND CLEAVAGE OF ALKYLCOB(III)ALAMINBIOCONJUGATES, Bioconjugate chemistry, 8(4), 1997, pp. 498-502
Authors:
TAOKA S
PADMAKUMAR R
GRISSOM CB
BANERJEE R
Citation: S. Taoka et al., MAGNETIC-FIELD EFFECTS ON COENZYME B-12-DEPENDENT ENZYMES - VALIDATION OF ETHANOLAMINE AMMONIA-LYASE RESULTS AND EXTENSION TO HUMAN METHYLMALONYL COA MUTASE, Bioelectromagnetics, 18(7), 1997, pp. 506-513
Authors:
KRUPPA AI
TARABAN MB
LESHINA TV
NATARAJAN E
GRISSOM CB
Citation: Ai. Kruppa et al., CIDNP IN THE PHOTOLYSIS OF COENZYME B-12 MODEL COMPOUNDS SUGGESTING THAT C-CO BOND HOMOLYSIS OCCURS FROM THE SINGLET-STATE, Inorganic chemistry, 36(5), 1997, pp. 758
Authors:
TARABAN MB
LESHINA TV
ANDERSON MA
GRISSOM CB
Citation: Mb. Taraban et al., MAGNETIC-FIELD DEPENDENCE OF ELECTRON-TRANSFER AND THE ROLE OF ELECTRON-SPIN IN HEME ENZYMES - HORSERADISH-PEROXIDASE, Journal of the American Chemical Society, 119(24), 1997, pp. 5768-5769
Citation: E. Natarajan et Cb. Grissom, THE ORIGIN OF MAGNETIC-FIELD DEPENDENT RECOMBINATION IN ALKYLCOBALAMIN RADICAL PAIRS, Photochemistry and photobiology, 64(2), 1996, pp. 286-295
Citation: Ma. Anderson et Cb. Grissom, INCREASING THE HEAVY-ATOM EFFECT OF XENON BY ADSORPTION TO ZEOLITES -PHOTOLYSIS OF 2,3-DIAZABICYCLO[2.2.2]OCT-2-ENE, Journal of the American Chemical Society, 118(40), 1996, pp. 9552-9556
Citation: Cb. Grissom, MAGNETIC-FIELD EFFECTS IN BIOLOGY - A SURVEY OF POSSIBLE MECHANISMS WITH EMPHASIS ON RADICAL-PAIR RECOMBINATION, Chemical reviews, 95(1), 1995, pp. 3-24
Citation: Wb. Lott et al., ALKYL RADICAL GEOMETRY CONTROLS GEMINATE CAGE RECOMBINATION IN ALKYLCOBALAMINS, Journal of the American Chemical Society, 117(49), 1995, pp. 12194-12201
Citation: Jr. Miller et al., MECHANISTIC PROBES OF MONOAMINE-OXIDASE-B CATALYSIS - RAPID-SCAN STOPPED-FLOW AND MAGNETIC-FIELD INDEPENDENCE OF THE REDUCTIVE HALF-REACTION, Journal of the American Chemical Society, 117(29), 1995, pp. 7830-7831
Citation: Ma. Anderson et Cb. Grissom, PHOTOLYSIS OF 2,3-DIAZABICYCLO[2.2.2]OCT-2-ENE - ELECTRONIC SPIN DETERMINES THE DISTRIBUTION OF PRODUCTS, Journal of the American Chemical Society, 117(18), 1995, pp. 5041-5048
Citation: Tt. Harkins et Cb. Grissom, THE MAGNETIC-FIELD DEPENDENT STEP IN BIT ETHANOLAMINE AMMONIA-LYASE IS RADICAL-PAIR RECOMBINATION, Journal of the American Chemical Society, 117(1), 1995, pp. 566-567
Citation: Tt. Harkins et Cb. Grissom, MAGNETIC-FIELD EFFECTS ON B-12 ETHANOLAMINE AMMONIA-LYASE - EVIDENCE FOR A RADICAL MECHANISM, Science, 263(5149), 1994, pp. 958-960
Citation: Cc. Hwang et Cb. Grissom, UNUSUALLY LARGE DEUTERIUM-ISOTOPE EFFECT IN SOYBEAN LIPOXYGENASE IS NOT CAUSED BY A MAGNETIC ISOTOPE EFFECT, Journal of the American Chemical Society, 116(2), 1994, pp. 795-796
Citation: Cb. Grissom et Am. Chagovetz, MAGNETIC-FIELD EFFECTS IN MODEL B(12) ENZYMATIC-REACTIONS - THE PHOTOLYSIS OF METHYLCOB(III)ALAMIN, Zeitschrift für physikalische Chemie, 182, 1993, pp. 181-188
Citation: Cc. Hwang et Cb. Grissom, MAGNETIC ISOTOPE EFFECT STUDIES OF LIPOXYGENASE-CATALYZED OXIDATION OF LINOLEATE, The FASEB journal, 7(7), 1993, pp. 1058-1058
Citation: Am. Chagovetz et Cb. Grissom, MAGNETIC-FIELD EFFECTS ON THE RATE OF PHOTOLYSIS OF METHYLCOB(III)ALAMIN AND ADENOSYLCOB(III)ALAMIN IN CONTINUOUS AND LASER FLASH MODES, The FASEB journal, 7(7), 1993, pp. 1061-1061
Citation: Tt. Harkins et Cb. Grissom, THE KINETIC MECHANISM AND MAGNETIC SPIN EFFECTS FOR ETHANOLAMINE-AMMONIA LYASE, The FASEB journal, 7(7), 1993, pp. 1062-1062
Citation: Cb. Grissom et al., USE OF VISCOSIGENS TO STABILIZE VITAMIN-B(12) SOLUTIONS AGAINST PHOTOLYSIS, Journal of pharmaceutical sciences, 82(6), 1993, pp. 641-643
Citation: Am. Chagovetz et Cb. Grissom, MAGNETIC-FIELD EFFECTS IN ADENOSYLCOB(III)ALAMIN PHOTOLYSIS - RELEVANCE TO B(12) ENZYMES, Journal of the American Chemical Society, 115(25), 1993, pp. 12152-12157