2016
DOI: 10.1002/etc.3249
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Insights into the nature of uranium target proteins within zebrafish gills after chronic and acute waterborne exposures

Abstract: New data on the nature of the protein targets of uranium (U) within zebrafish gills were collected after waterborne exposure, with the aim of a better understanding of U toxicity mechanisms. Some common characteristics of the U protein target binding properties were found, such as their role in the regulation of other essential metals and their phosphorus content. In total, 21 potential protein targets, including hemoglobin, are identified and discussed in terms of the literature.

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Cited by 17 publications
(7 citation statements)
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“…Much remains to be discovered regarding biologically relevant uranium–protein interactions. Although recent proteomic and transcriptomic studies have explored effects on protein/transcript abundances in response to uranium, ,, in vivo protein–uranyl associations were studied in only a handful of cases so far. Furthermore, although bio-geochemical redox transformations of uranium are intensely studied, information on intracellular redox chemistry of uranium is still limited . It is clearly desirable to expand further metalloproteomic studies as well as to explore uranium redox chemistry with individual proteins and within the cytosol, to better understand uranium metabolic pathways, toxicity, and resistance mechanisms.…”
Section: Discussionsupporting
confidence: 76%
See 1 more Smart Citation
“…Much remains to be discovered regarding biologically relevant uranium–protein interactions. Although recent proteomic and transcriptomic studies have explored effects on protein/transcript abundances in response to uranium, ,, in vivo protein–uranyl associations were studied in only a handful of cases so far. Furthermore, although bio-geochemical redox transformations of uranium are intensely studied, information on intracellular redox chemistry of uranium is still limited . It is clearly desirable to expand further metalloproteomic studies as well as to explore uranium redox chemistry with individual proteins and within the cytosol, to better understand uranium metabolic pathways, toxicity, and resistance mechanisms.…”
Section: Discussionsupporting
confidence: 76%
“…To understand cellular effects of uranium, and also to be able to bioengineer bacterial strains with superior tolerance toward and/or accumulation of uranium, it is important to consider intracellular speciation, toxicity pathways, and mechanisms for detoxification. In this context, there has been increasing interest in studying the interactions of uranyl with proteins, either with selected candidates , or in the context of metalloproteomics studies. In a study on the model uranium accumulator Procambarus clarkii, a freshwater crayfish, uranium was detected in fractions containing low-molecular weight proteins, designated as “MT-like fraction” . “MT” stands for metallothioneins, an important class of mostly intracellular proteins with roles in both heavy metal detoxification and reactive oxygen species scavenging. They are stress-response metalloproteins, characterized by their small size (usually less than 10 kDa) and high metal and sulfur contents.…”
Section: Introductionmentioning
confidence: 99%
“…Plastin is involved in the formation of cross-linked actin filaments, which are also responsible for the structural solidity of certain cells (Shinomiya, 2012). Plastin is a protein known for binding metals including Ca and could therefore be a candidate for binding uranium (U) with a low pH of 5.2 (Bucher et al, 2016). If the alteration in plastin occurs in the presence of U, it may contribute to the structural damage previously observed in gill tissues of zebrafish (Barillet et al, 2010).…”
Section: Local Adaptation Of Shinkaia Crosnierimentioning
confidence: 99%
“…Long exposure durations at 20 µg L -1 altered the reproduction capacity of Danio (Simon et al, 2014). Molecular effects in Danio ovaries were also observed from a 20 µg L -1 exspoure ((Bucher et al, 2016;Eb-Levadoux et al, 2017;Simon et al, 2018).…”
Section: Accepted Manuscriptmentioning
confidence: 83%