Search results for "Metal detoxification"

showing 5 items of 5 documents

The essentials of marine biotechnology

2021

Coastal countries have traditionally relied on the existing marine resources (e.g., fishing, food, transport, recreation, and tourism) as well as tried to support new economic endeavors (ocean energy, desalination for water supply, and seabed mining). Modern societies and lifestyle resulted in an increased demand for dietary diversity, better health and well-being, new biomedicines, natural cosmeceuticals, environmental conservation, and sustainable energy sources. These societal needs stimulated the interest of researchers on the diverse and underexplored marine environments as promising and sustainable sources of biomolecules and biomass, and they are addressed by the emerging field of ma…

0301 basic medicine[SDV.BIO]Life Sciences [q-bio]/Biotechnologylcsh:QH1-199.5Stakeholder engagementOceanographyResponsible research and innovation (RRI)challangesNatural-productsResponsible research and innovation0302 clinical medicineMarine bioeconomyIn-silico predictionlcsh:SciencevalorizationMarine biodiversityWater Science and TechnologybiodiversityHeavy-metal detoxificationBioprospectingGlobal and Planetary ChangeBioprospectingLead-like moleculesconservationBiological SciencesSustainabilityMarine natural products[SDE]Environmental SciencesSolid-phase microextractionDeep-sea sedimentsNatural Sciencesmarine biotechnologymarine bioeconomyMarine conservationmarine biotechnology valorization biodiversity conservation challangesOcean EngineeringAquatic Sciencelcsh:General. Including nature conservation geographical distributionBioactive compoundsBlue growthWaste-water treatment03 medical and health sciencesbioprospecting ; blue growth ; marine biodiversity ; marine natural products ; sustainability ; ethics ; responsible research and innovation (RRI) ; marine bioeconomy14. Life underwaterRecreation[SDU.STU.OC]Sciences of the Universe [physics]/Earth Sciences/OceanographyEthicsResponsible Research and Innovationbusiness.industrySecondary metabolitesParticulate organic-carbonBiotechnology030104 developmental biology13. Climate actionAgricultureSustainabilitymarine biotechnology ; Blue growth ; Marine Biodiversity ; marine natural product ; sustainability ; Ethics ; Responsible research & innovationlcsh:Qbusiness030217 neurology & neurosurgeryTourism

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The role of metallothionein and selenium in metal detoxification in the liver of deep-sea fish from the NW Mediterranean Sea

2014

8 pages, 1 figure, 5 tables

Fish ProteinsMaleEnvironmental Engineeringchemistry.chemical_elementMetal toxicityZincBiologyMetal detoxificationMass Spectrometrychemistry.chemical_compoundSeleniumMediterranean seaMetals HeavyLactate dehydrogenaseDeep sea fishMediterranean SeaAnimalsEnvironmental ChemistryMetallothioneinMuscle SkeletalWaste Management and DisposalL-Lactate DehydrogenaseFishesPollutionMercury (element)ZincchemistryLiverSpainEnvironmental chemistryInactivation MetabolicAcetylcholinesteraseFemaleMetallothioneinDeep-sea fishBiomarkersWater Pollutants ChemicalSeleniumEnvironmental MonitoringPolarography

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Effects of sublethal exposure to lead on levels of energetic compounds in Procambarus clarkii (Girard, 1852).

1994

Lead is neither essential nor beneficial to living organisms; all existing data show that its metabolic effects are adverse. Lead is toxic to all phyla of aquatic biota. Most of the lead discharged into surface water is rapidly incorporated into suspended and bottom sediments. The American red crayfish, Procambarus clarkii, lives in a wide range of environmental conditions that include highly polluted waters. Lead present in take sediments can be available to aquatic animals such as P. clarkii because it is a detritivor and burrow into the sediment. In fact, we found remarkable levels of lead in tissues of P. clarkii caught in Albufera Lake and kept 15 days in clean water (e. g. 223 [mu]g/g…

GillGillsHealth Toxicology and MutagenesisAstacoideaToxicologyEcotoxicologyAnimalsPancreasHeavy metal detoxificationProcambarus clarkiibiologyEcologyDecapodaAquatic animalGeneral Medicinebiology.organism_classificationCrayfishLipid MetabolismPollutionLeadLiverEnvironmental chemistryHepatopancreasEnergy MetabolismGlycogenWater Pollutants ChemicalBulletin of environmental contamination and toxicology

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Heavy metal exposure in patients suffering from electromagnetic hypersensitivity

2009

Abstract Background Risks from electromagnetic devices are of considerable concern. Electrohypersensitive (EHS) persons attribute a variety of rather unspecific symptoms to the exposure to electromagnetic fields. The pathophysiology of EHS is unknown and therapy remains a challenge. Objectives Heavy metal load has been discussed as a potential factor in the symptomatology of EHS patients. The main objective of the study was to test the hypothesis of a link between EHS and heavy metal exposure. Methods We measured lead, mercury and cadmium concentrations in the blood of 132 patients ( n = 42 males and n = 90 females) and 101 controls ( n = 34 males and n = 67 females). Results Our result…

Malemedicine.medical_specialtyEnvironmental EngineeringElectromagnetic hypersensitivityElectromagnetic FieldsMetals HeavyInternal medicineHypersensitivitymedicineElectromagnetic devicesHumansEnvironmental ChemistryIn patientWaste Management and DisposalMercury bloodHeavy metal detoxificationChemistryHeavy metalsEnvironmental ExposureMercuryMiddle AgedPollutionLeadEnvironmental chemistryBody BurdenFemaleLead bloodmedicine.symptomCadmiumScience of The Total Environment

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Glutathione metabolism and heavy metal detoxification in Schizosaccharomyces pombe

1991

Sixty glutathione-deficient mutants (gsh −) of Schizosaccharomyces pombe have been isolated by their resistance towards the mutagen N-methyl-N′-nitro-N-nitrosoguanidine (MNNG) and their sensitivity to the heavy metal Cadmium (Cd). fifty-three mutants show glutathione contents of less than 5% compared with the wild-type. The residual glutathione contents correlate with the resistance to MNNG, with the sensitivity to Cd and with the growth rate in minimal medium. The gsh −, Cd-sensitive (Cd s) mutants also show sensitivity to other heavy metals. Wild-type strains, but not the gsh − mutants, are able to excrete the heavy metal, very likely as a sulfide-containing compound. This inability of th…

chemistry.chemical_classificationMutantMutagenGeneral MedicineGlutathioneMetabolismBiologymedicine.disease_causebiology.organism_classificationGlutathione synthetasechemistry.chemical_compoundEnzymechemistryBiochemistrySchizosaccharomyces pombeGeneticsmedicineHeavy metal detoxificationCurrent Genetics

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