Voltammetric investigation of iron(III) complexes with siderophore chrysobactin in aqueous solution

被引:13
|
作者
Vukosav, Petra [1 ]
Frkanec, Leo [2 ]
Mlakar, Marina [1 ]
机构
[1] Rudjer Boskovic Inst, Div Marine & Environm Res, Zagreb 10000, Croatia
[2] Rudjer Boskovic Inst, Div Organ Chem & Biochem, Zagreb 10000, Croatia
来源
ELECTROCHIMICA ACTA | 2012年 / 59卷
关键词
Iron(III); Siderophore; Chrysobactin; Redox potential; Voltammetry; SQUARE-WAVE VOLTAMMETRY; CATHODIC STRIPPING VOLTAMMETRY; ERWINIA-CHRYSANTHEMI; BIOCHEMICAL PROCESSES; STABILITY-CONSTANTS; IRON; CHEMISTRY; CATECHOL; RELEASE;
D O I
10.1016/j.electacta.2011.11.031
中图分类号
O646 [电化学、电解、磁化学];
学科分类号
081704 ;
摘要
Voltammetric investigations of iron(III)-chrysobactin complexes in aqueous solution at static mercury electrode, were performed. With c(Fe) = (0.5-30) x 10(-7) mol dm(-3) and C-cb = (0.5-100) x 10(-7) mol dm(-3) in pH range 6.7-10, reduction peaks with E-p -0.64 to -0.74V ((1) under bar) and E-p -0.50 to -0.62V ((2) under bar) vs. Ag/AgCl, were registered. These reduction processes were time dependent as well as solution composition (c(Fe), c(Cb) and pH). Complexes are adsorbed at the mercury drop surface. Presumed stoichiometry of the detected complexes was (FeCb3)-Cb-III ((1) under bar) and (FeCb2)-Cb-III(OH)(x) ((2) under bar). Their formation/dissociation processes were described. These investigations are of biological importance as well, since provide an insight into possible reduction mechanism in the bacterial cells that use chrysobactin to acquire the iron. (C) 2011 Elsevier Ltd. All rights reserved.
引用
收藏
页码:479 / 484
页数:6
相关论文
共 50 条
  • [1] IRON(III) COMPLEXES OF CHRYSOBACTIN, THE SIDEROPHORE OF ERWINIA-CHRYSANTHEMI
    PERSMARK, M
    NEILANDS, JB
    [J]. BIOMETALS, 1992, 5 (01) : 29 - 36
  • [2] Iron(III) Uptake and Release by Chrysobactin, a Siderophore of the Phytophatogenic Bacterium Erwinia chrysanthemi
    Tomisic, Vladislav
    Blanc, Sylvie
    Elhabiri, Mourad
    Expert, Dominique
    Albrecht-Gary, Anne-Marie
    [J]. INORGANIC CHEMISTRY, 2008, 47 (20) : 9419 - 9430
  • [3] FORMATION OF IRON(III) CHLORATE AND IRON(III) BROMATE COMPLEXES IN AQUEOUS SOLUTION
    MORRIS, DFC
    HEDGER, TJ
    WATSON, PA
    [J]. JOURNAL OF INORGANIC & NUCLEAR CHEMISTRY, 1971, 33 (07): : 2077 - &
  • [4] Voltammetric determination of stability constants of iron(III)-glycine complexes in water solution
    Cuculic, V
    Pizeta, I
    Branica, M
    [J]. JOURNAL OF ELECTROANALYTICAL CHEMISTRY, 2005, 583 (01) : 140 - 147
  • [5] Investigation of Siderophore-Monobactam Antibiotic Derivatives: Their Iron(III)-Complexes and Binding to Receptors
    Scorciapino, Mariano A.
    Malloci, Giuliano
    Ceccarelli, Matteo
    Moynie, Lucile
    Naismith, James H.
    Desarbre, Eric
    Page, Malcolm
    [J]. BIOPHYSICAL JOURNAL, 2017, 112 (03) : 551A - 552A
  • [6] STUDIES ON HYDROXO COMPLEXES OF IRON (III) IN AQUEOUS-SOLUTION
    LANDRY, JC
    BUFFLE, J
    HAERDI, W
    LEVENTAL, M
    NEMBRINI, G
    [J]. CHIMIA, 1975, 29 (06) : 253 - 256
  • [7] STRUCTURE OF IRON(III)-TIRON COMPLEXES IN AQUEOUS-SOLUTION
    OZUTSUMI, K
    UCHIMA, Y
    KAWASHIMA, T
    [J]. ANALYTICAL SCIENCES, 1990, 6 (04) : 573 - 577
  • [8] Revision of iron(III)-citrate speciation in aqueous solution. Voltammetric and spectrophotometric studies
    Vukosav, Petra
    Mlakar, Marina
    Tomisic, Vladislav
    [J]. ANALYTICA CHIMICA ACTA, 2012, 745 : 85 - 91
  • [9] Voltammetric Investigation of Iron(III) Interactions with Phytate
    Marolt, Gregor
    Sala, Martin
    Pihlar, Boris
    [J]. ELECTROCHIMICA ACTA, 2015, 176 : 1116 - 1125
  • [10] PHOTOCHEMICAL TRANSFORMATION OF IMINODIACETIC COMPLEXES WITH IRON (III) IN AQUEOUS-SOLUTION
    ANDRIANIRINAHARIVELO, SL
    BOLTE, M
    [J]. CHEMOSPHERE, 1992, 24 (08) : 953 - 958
12345