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methylobacterium hispanicum  (DSMZ)


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  • 94

    Structured Review

    DSMZ methylobacterium hispanicum
    (A) The intracellular Fenton chemistry drives the ROS-driven degradation of DMSO, resulting in MSA, sulfite, CH 4 and methanol, thereby allowing for a non-enzymatic metabolic pathway of sulfur and carbon assimilation. (B) M. <t>hispanicum</t> respires carbon from 13 C-DMSO. Both 13 C/ 12 C ratios and formation rates of the formed CO 2 are shown, from media controls (circles) and corresponding M. hispanicum cultures (squares), from unlabeled (blue) to 13 C-labeled DMSO (red). Cartoon generated with BioRender.com .
    Methylobacterium Hispanicum, supplied by DSMZ, used in various techniques. Bioz Stars score: 94/100, based on 2 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
    https://www.bioz.com/product/methylobacterium+hispanicum/bio_rxiv__64898__2026__02__18__706717-120-2-8?v=DSMZ
    Average 94 stars, based on 2 article reviews
    methylobacterium hispanicum - by Bioz Stars, 2026-07
    94/100 stars

    Images

    1) Product Images from "Non-enzymatic assimilation of organosulfur compounds at the interface of geochemistry and biochemistry"

    Article Title: Non-enzymatic assimilation of organosulfur compounds at the interface of geochemistry and biochemistry

    Journal: bioRxiv

    doi: 10.64898/2026.02.18.706717

    (A) The intracellular Fenton chemistry drives the ROS-driven degradation of DMSO, resulting in MSA, sulfite, CH 4 and methanol, thereby allowing for a non-enzymatic metabolic pathway of sulfur and carbon assimilation. (B) M. hispanicum respires carbon from 13 C-DMSO. Both 13 C/ 12 C ratios and formation rates of the formed CO 2 are shown, from media controls (circles) and corresponding M. hispanicum cultures (squares), from unlabeled (blue) to 13 C-labeled DMSO (red). Cartoon generated with BioRender.com .
    Figure Legend Snippet: (A) The intracellular Fenton chemistry drives the ROS-driven degradation of DMSO, resulting in MSA, sulfite, CH 4 and methanol, thereby allowing for a non-enzymatic metabolic pathway of sulfur and carbon assimilation. (B) M. hispanicum respires carbon from 13 C-DMSO. Both 13 C/ 12 C ratios and formation rates of the formed CO 2 are shown, from media controls (circles) and corresponding M. hispanicum cultures (squares), from unlabeled (blue) to 13 C-labeled DMSO (red). Cartoon generated with BioRender.com .

    Techniques Used: Labeling, Generated



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    DSMZ methylobacterium hispanicum
    (A) The intracellular Fenton chemistry drives the ROS-driven degradation of DMSO, resulting in MSA, sulfite, CH 4 and methanol, thereby allowing for a non-enzymatic metabolic pathway of sulfur and carbon assimilation. (B) M. <t>hispanicum</t> respires carbon from 13 C-DMSO. Both 13 C/ 12 C ratios and formation rates of the formed CO 2 are shown, from media controls (circles) and corresponding M. hispanicum cultures (squares), from unlabeled (blue) to 13 C-labeled DMSO (red). Cartoon generated with BioRender.com .
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    DSMZ 2011 m hispanicum gp34 16372 drinking water cect gallego
    (A) The intracellular Fenton chemistry drives the ROS-driven degradation of DMSO, resulting in MSA, sulfite, CH 4 and methanol, thereby allowing for a non-enzymatic metabolic pathway of sulfur and carbon assimilation. (B) M. <t>hispanicum</t> respires carbon from 13 C-DMSO. Both 13 C/ 12 C ratios and formation rates of the formed CO 2 are shown, from media controls (circles) and corresponding M. hispanicum cultures (squares), from unlabeled (blue) to 13 C-labeled DMSO (red). Cartoon generated with BioRender.com .
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    Image Search Results


    (A) The intracellular Fenton chemistry drives the ROS-driven degradation of DMSO, resulting in MSA, sulfite, CH 4 and methanol, thereby allowing for a non-enzymatic metabolic pathway of sulfur and carbon assimilation. (B) M. hispanicum respires carbon from 13 C-DMSO. Both 13 C/ 12 C ratios and formation rates of the formed CO 2 are shown, from media controls (circles) and corresponding M. hispanicum cultures (squares), from unlabeled (blue) to 13 C-labeled DMSO (red). Cartoon generated with BioRender.com .

    Journal: bioRxiv

    Article Title: Non-enzymatic assimilation of organosulfur compounds at the interface of geochemistry and biochemistry

    doi: 10.64898/2026.02.18.706717

    Figure Lengend Snippet: (A) The intracellular Fenton chemistry drives the ROS-driven degradation of DMSO, resulting in MSA, sulfite, CH 4 and methanol, thereby allowing for a non-enzymatic metabolic pathway of sulfur and carbon assimilation. (B) M. hispanicum respires carbon from 13 C-DMSO. Both 13 C/ 12 C ratios and formation rates of the formed CO 2 are shown, from media controls (circles) and corresponding M. hispanicum cultures (squares), from unlabeled (blue) to 13 C-labeled DMSO (red). Cartoon generated with BioRender.com .

    Article Snippet: Pre-cultures of Methylobacterium hispanicum were cultivated in modified DSMZ 1629 medium, harboring 1.61 g L -1 NH4Cl, 0.2 g L -1 MgSO 4 · 7 H 2 O, 2.4 g L -1 K2HPO4, 1.1 g L -1 NaH2PO4 · 2 H2O, 4.5 mg L -1 ZnSO4 · 7 H2O, 3 mg CoCl2 · 6 H2O, 0.64 mg L -1 MnCl2 · 4 H2O, 1 mg L -1 H3BO3, 0.4 mg L -1 Na2MoO4 · 2 H2O, 0.3 mg L -1 CuSO4 · 2 H2O, and 3 mg L -1 CaCl2 · 6 H2O, which was further supplemented with 5 mL L -1 methanol, 30 mM sodium citrate and 10 mM FeCl 2 .

    Techniques: Labeling, Generated