Peroxisomal proteomic approach for protein profiling in blue mussels (<i>Mytilus edulis</i>) exposed to crude oil

Mi, Jia; Apraiz, Itxaso; Cristóbal, Susana

doi:10.1080/13547500600943528

Cited by 24 publications

(23 citation statements)

References 37 publications

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“…The hierarchical cluster analysis of the unique PES spots from the 2D maps that showed significant change in the abundance was able to distinguish the control group from exposed mussels. The data indicate that the PES obtained with DIGE are consistent with previous findings, and that the signatures can be used to biomonitor areas affected by oil spills and to assess oil exposure in the marine environment (Mi, Apraiz, & Cristobal, 2007). …”

Section: A Strategies For Protein Identificationsupporting

confidence: 89%

“…A number of proteins identified in this study had already been reported previously, thus validating the DIGE technique in environmental research. A recent publication was using DIGE technology to define minimal PES characteristic for blue mussels (Mytilus edulis) exposed to crude oil mixtures (Mi, Apraiz, & Cristobal, 2007). The hierarchical cluster analysis of the unique PES spots from the 2D maps that showed significant change in the abundance was able to distinguish the control group from exposed mussels.…”

Section: A Strategies For Protein Identificationmentioning

confidence: 99%

“…The majority of the proteins identified from these spots by MS had already been known to be involved in cold-stress response. The previously mentioned work by Mi, Apraiz, and Cristobal (2007), was also using DIGE to monitor proteome changes in the peroxisome-enriched fractions from digestive glands of blue mussels exposed to crude oil and crude oil spiked with alkylated phenols and extra polycyclic aromatic hydrocarbons in a laboratory flow-through system. The DIGE maps showed significant differences in the abundance of 22 spots.…”

Section: Relative Quantificationmentioning

confidence: 99%

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Analysis of environmental stress response on the proteome level

Nesatyy

Suter

2008

Mass Spectrometry Reviews

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Thousands of man-made chemicals are annually released into the environment by agriculture, transport, industries, and other human activities. In general, chemical analysis of environmental samples used to assess the pollution status of a specific ecosystem is complicated by the complexity of the mixture, and in some cases by the very low toxicity thresholds of chemicals present. In that sense, a proteomics approach, capable of detecting subtle changes in the level and structure of individual proteins within the whole proteome in response to the altered surroundings, has obvious applications in the field of ecotoxicology. In addition to identifying new protein biomarkers, it can also help to provide an insight into underlying mechanisms of toxicity. Despite being a comparatively new field with a number of caveats, proteomics applications have spread from microorganisms and plants to invertebrates and vertebrates, gradually becoming an established technology used in environmental research. This review article highlights recent advances in the field of environmental proteomics, mainly focusing on experimental approaches with a potential to understand toxic modes of action and to identify novel ecotoxicological biomarkers.

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Section: A Strategies For Protein Identificationsupporting

confidence: 89%

Section: A Strategies For Protein Identificationmentioning

confidence: 99%

Section: Relative Quantificationmentioning

confidence: 99%

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Analysis of environmental stress response on the proteome level

Nesatyy

Suter

2008

Mass Spectrometry Reviews

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“…Some authors have reported that environmental stress such as variation in salinity and temperature [96] or exposure to environmental contaminants such as heavy metals, xenoestrogen, and chlorinated compounds [94,97,98] has an impact on protein expression in different tissues of relevant aquatic organisms. Although gel-free methods using surface-enhanced laser desorption/ionization (SELDI) mass spectrometry have been investigated [99][100][101], environmental biomarker discovery still relies mainly on 2D gel electrophoresis and, to our knowledge, is lacking for aquaculture production [102][103][104]. However, there is no doubt that using a proteomic approach in combination with other biomarkers at physiological, behavioral, and biochemical levels will give a more precise set of biomarkers for assessing the exposure of penaeid shrimp to drugs and chemicals.…”

Section: Further Developmentsmentioning

confidence: 99%

Effects of pesticides and antibiotics on penaeid shrimp with special emphases on behavioral and biomarker responses

Silvestre

Phương

et al. 2010

Enviro Toxic and Chemistry

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Abstract-The purpose of the present study is to provide information on the current state of knowledge regarding the effects of pesticides and antibiotics used in aquaculture on penaeid shrimp, one of the most common aquatic products for human consumption, with a special emphasis on the use of behavioral, physiological, and biochemical response. These include behavior; feeding rate changes; respiration rate, oxygen consumption, and osmoregulation alterations; nucleic acids, protein, and glycogen synthesis; cholinesterase activity inhibition; ATPase activity; and oxidative stress responses. This paper also deals with residues of antibiotics and pesticides in penaeid shrimp. Antibiotics and pesticides used in aquaculture may have adverse effects on treated animals and human consumers health if they are not correctly used. As a complement to the measurement of antibiotic and pesticide residues in tissues, the use of behavioral and biomarker responses can provide more relevant biological information on the potential adverse effects of antibiotics and pesticides on penaeid shrimp health. Environ. Toxicol. Chem. 2010;29:929-938. # 2009 SETAC

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“…They reported changes in the proteome of juvenile Atlantic cod (Gadus morhua) [83] of mussel Mytilus edulis exposed to PAH and alkyl phenols [84], to PCB and PAH ( [85]), in the clam Chamaelea galina exposed to PCB [86], to As [87] or the clam Ruditapes decussatus exposed to Cd [88].…”

Section: Toxins and Other Environmental Contaminants Detectionmentioning

confidence: 99%

High-Throughput Proteomics: A New Tool for Quality and Safety in Fishery Products

Tedesco¹,

Mullen²,

Cristóbal

2014

CPPS

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Abstract:In order to cope with the increasing demand for fishery products, sensitive technological tools are required to ensure high quality and wholesomeness and to monitor their production process in a sustainable manner while complying with the strict standards imposed by regulatory authorities. Proteomics may assist the industry as it allows an unbiased approach in the discovery of biomarkers that could be used to increase our understanding of different biological, physiological and ecological aspects that may be advantageous in optimizing quality and safety in aquatic species. The aim of this review is to highlight the potential of cost-effective high-throughput technologies, such as those offered by proteomics using "on-line" mass spectrometry to improve the efficiency of the industry in identifying biomarkers relevant for safe high quality products.

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Peroxisomal proteomic approach for protein profiling in blue mussels (Mytilus edulis) exposed to crude oil

Cited by 24 publications

References 37 publications

Analysis of environmental stress response on the proteome level

Analysis of environmental stress response on the proteome level

Effects of pesticides and antibiotics on penaeid shrimp with special emphases on behavioral and biomarker responses

High-Throughput Proteomics: A New Tool for Quality and Safety in Fishery Products

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