TY - JOUR
T1 - SO2907, a putative TonB-dependent receptor, is involved in dissimilatory iron reduction by Shewanella oneidensis strain MR-1
AU - Qian, Yufeng
AU - Shi, Liang
AU - Tien, Ming
PY - 2011/10/30
Y1 - 2011/10/30
N2 - Shewanella oneidensis strain MR-1 utilizes soluble and insoluble ferric ions as terminal electron acceptors during anaerobic respiration. The components of respiratory metabolism are localized in the membrane fractions which include the outer membrane and cytoplasmic membrane. Many of the biological components that interact with the various iron forms are proposed to be localized in these membrane fractions. To identify the iron-binding proteins acting either as an iron transporter or as a terminal iron reductase, we used metal-catalyzed oxidation reactions. This system catalyzed the oxidation of amino acids in close proximity to the iron binding site. The carbonyl groups formed from this oxidation can then be labeled with fluoresceinamine (FLNH 2). The peptide harboring the FLNH 2 can then be proteolytically digested, purified by HPLC and then identified by MALDI-TOF tandem MS. A predominant peptide was identified to be part of SO2907 that encodes a putative TonB-dependent receptor. Compared with wild type (wt), the so2907 gene deletion (ΔSO2907) mutant has impaired ability to reduce soluble Fe(III), but retains the same ability to respire oxygen or fumarate as the wt. The ΔSO2907 mutant was also impacted in reduction of insoluble iron. Iron binding assays using isothermal titration calorimetry and fluorescence tryptophan quenching demonstrated that a truncated form of heterologous- expressed SO2907 that contains the Fe(III) binding site, is capable of binding soluble Fe(III) forms with K d of approximate 50 μM. To the best of our knowledge, this is the first report of the physiological role of SO2907 in Fe(III) reduction by MR-1.
AB - Shewanella oneidensis strain MR-1 utilizes soluble and insoluble ferric ions as terminal electron acceptors during anaerobic respiration. The components of respiratory metabolism are localized in the membrane fractions which include the outer membrane and cytoplasmic membrane. Many of the biological components that interact with the various iron forms are proposed to be localized in these membrane fractions. To identify the iron-binding proteins acting either as an iron transporter or as a terminal iron reductase, we used metal-catalyzed oxidation reactions. This system catalyzed the oxidation of amino acids in close proximity to the iron binding site. The carbonyl groups formed from this oxidation can then be labeled with fluoresceinamine (FLNH 2). The peptide harboring the FLNH 2 can then be proteolytically digested, purified by HPLC and then identified by MALDI-TOF tandem MS. A predominant peptide was identified to be part of SO2907 that encodes a putative TonB-dependent receptor. Compared with wild type (wt), the so2907 gene deletion (ΔSO2907) mutant has impaired ability to reduce soluble Fe(III), but retains the same ability to respire oxygen or fumarate as the wt. The ΔSO2907 mutant was also impacted in reduction of insoluble iron. Iron binding assays using isothermal titration calorimetry and fluorescence tryptophan quenching demonstrated that a truncated form of heterologous- expressed SO2907 that contains the Fe(III) binding site, is capable of binding soluble Fe(III) forms with K d of approximate 50 μM. To the best of our knowledge, this is the first report of the physiological role of SO2907 in Fe(III) reduction by MR-1.
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U2 - 10.1074/jbc.M111.262113
DO - 10.1074/jbc.M111.262113
M3 - Article
C2 - 21813652
AN - SCOPUS:80053214560
SN - 0021-9258
VL - 286
SP - 33973
EP - 33980
JO - Journal of Biological Chemistry
JF - Journal of Biological Chemistry
IS - 39
ER -