Oxidation of ofloxacin by Oxone/Co2+: identification of reaction products and pathways
In: Environmental science and pollution research: ESPR, Band 21, Heft 4, S. 3031-3040
ISSN: 1614-7499
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In: Environmental science and pollution research: ESPR, Band 21, Heft 4, S. 3031-3040
ISSN: 1614-7499
In: Materials and design, Band 86, S. 878-886
ISSN: 1873-4197
In: Materials and design, Band 190, S. 108562
ISSN: 1873-4197
In: Materials and design, Band 225, S. 111514
ISSN: 1873-4197
In: Materials and design, Band 195, S. 109066
ISSN: 1873-4197
In: CyTA: journal of food, Band 17, Heft 1, S. 221-227
ISSN: 1947-6345
In: CyTA: journal of food, Band 22, Heft 1
ISSN: 1947-6345
4 pags, 4 figs. -- Supporting Information available at the Publisher web. ; The zinc protease AmpDh2 is a virulence determinant of Pseudomonas aeruginosa, a problematic human pathogen. The mechanism of how the protease manifests virulence is not known, but it is known that it turns over the bacterial cell wall. The reaction of AmpDh2 with the cell wall was investigated, and nine distinct turnover products were characterized by LC/MS/MS. The enzyme turns over both the cross-linked and noncross-linked cell wall. Three high-resolution X-ray structures, the apo enzyme and two complexes with turnover products, were solved. The X-ray structures show how the dimeric protein interacts with the inner leaflet of the bacterial outer membrane and that the two monomers provide a more expansive surface for recognition of the cell wall. This binding surface can accommodate the 3D solution structure of the cross-linked cell wall. © 2013 American Chemical Society. ; This work was supported by a grant from the NIH (GM61629) and by grants BFU2011-25326 (the Spanish Ministry of Economy and Competitiveness) and S2010/BMD-2457 (the Government of Community of Madrid). The Mass Spectrometry & Proteomics Facility of the University of Notre Dame is supported by grant CHE0741793 from the NSF.
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In: Proceedings of the Estonian Academy of Sciences. Chemistry, Band 44, Heft 2/3, S. 109
In: Salvito , D , Fernandez , M , Jenner , K , Lyon , D Y , de Knecht , J , Mayer , P , MacLeod , M , Eisenreich , K , Leonards , P , Cesnaitis , R , León-Paumen , M , Embry , M & Déglin , S E 2020 , ' Improving the Environmental Risk Assessment of Substances of Unknown or Variable Composition, Complex Reaction Products, or Biological Materials ' , Environmental toxicology and chemistry , vol. 39 , no. 11 , pp. 2097-2108 . https://doi.org/10.1002/etc.4846
Substances of unknown or variable composition, complex reaction products, or biological materials (UVCBs) pose unique risk assessment challenges to regulators and to product registrants. These substances can contain many constituents, sometimes partially unknown and/or variable, depending on fluctuations in their source material and/or manufacturing process. International regulatory agencies have highlighted the difficulties in characterizing UVCBs and assessing their toxicity and environmental fate. Several industrial sectors have attempted to address these issues by developing frameworks and characterization methods. Based on the output of a 2016 workshop, this critical review examines current practices for UVCB risk assessment and reveals a need for a multipronged and transparent approach integrating whole-substance and constituent-based information. In silico tools or empirical measurements can provide information on discrete and/or blocks of UVCB constituents with similar hazard properties. Read-across and/or whole-substance toxicity and fate testing using adapted emerging methods can provide whole-substance information. Continued collaboration of stakeholders representing government, industry, and academia will facilitate the development of practical testing strategies and guidelines for addressing regulatory requirements for UVCBs. Environ Toxicol Chem 2020;39:2097–2108.
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In: Salvito , D , Fernandez , M , Jenner , K , Lyon , D Y , de Knecht , J , Mayer , P , MacLeod , M , Eisenreich , K , Leonards , P , Cesnaitis , R , León-Paumen , M , Embry , M & Déglin , S E 2020 , ' Improving the Environmental Risk Assessment of Substances of Unknown or Variable Composition, Complex Reaction Products, or Biological Materials ' , Environmental Toxicology and Chemistry , vol. 39 , no. 11 , pp. 2097-2108 . https://doi.org/10.1002/etc.4846
Substances of unknown or variable composition, complex reaction products, or biological materials (UVCBs) pose unique risk assessment challenges to regulators and to product registrants. These substances can contain many constituents, sometimes partially unknown and/or variable, depending on fluctuations in their source material and/or manufacturing process. International regulatory agencies have highlighted the difficulties in characterizing UVCBs and assessing their toxicity and environmental fate. Several industrial sectors have attempted to address these issues by developing frameworks and characterization methods. Based on the output of a 2016 workshop, this critical review examines current practices for UVCB risk assessment and reveals a need for a multipronged and transparent approach integrating whole-substance and constituent-based information. In silico tools or empirical measurements can provide information on discrete and/or blocks of UVCB constituents with similar hazard properties. Read-across and/or whole-substance toxicity and fate testing using adapted emerging methods can provide whole-substance information. Continued collaboration of stakeholders representing government, industry, and academia will facilitate the development of practical testing strategies and guidelines for addressing regulatory requirements for UVCBs. Environ Toxicol Chem 2020;00:1–12.
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Substances of unknown or variable composition, complex reaction products, or biological materials (UVCBs) pose unique risk assessment challenges to regulators and to product registrants. These substances can contain many constituents, sometimes partially unknown and/or variable, depending on fluctuations in their source material and/or manufacturing process. International regulatory agencies have highlighted the difficulties in characterizing UVCBs and assessing their toxicity and environmental fate. Several industrial sectors have attempted to address these issues by developing frameworks and characterization methods. Based on the output of a 2016 workshop, this critical review examines current practices for UVCB risk assessment and reveals a need for a multipronged and transparent approach integrating whole‐substance and constituent‐based information. In silico tools or empirical measurements can provide information on discrete and/or blocks of UVCB constituents with similar hazard properties. Read‐across and/or whole‐substance toxicity and fate testing using adapted emerging methods can provide whole‐substance information. Continued collaboration of stakeholders representing government, industry, and academia will facilitate the development of practical testing strategies and guidelines for addressing regulatory requirements for UVCBs. Environ Toxicol Chem 2020;39:2097–2108. © 2020 Health and Environmental Sciences Institute. Environmental Toxicology and Chemistry published by Wiley Periodicals LLC on behalf of SETAC.
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In: EFSA supporting publications, Band 7, Heft 3
ISSN: 2397-8325
In: JCOU-D-22-00234
SSRN
In: Materials and design, Band 194, S. 108975
ISSN: 1873-4197