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Autores principales: Ma, Yuanyuan, Roeder, Thomas
Formato: Artículo científico
Lenguaje:en
Publicado: International journal of molecular sciences 2024
Materias:
Acceso en línea:https://pubmed.ncbi.nlm.nih.gov/39684802/
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author Ma, Yuanyuan
Roeder, Thomas
author_facet Ma, Yuanyuan
Roeder, Thomas
Ma, Yuanyuan
Roeder, Thomas
collection PubMed - marine biology
contents Complements the Portfolio of Simple Animal Models Used for Marine Toxicological Studies. Ma, Yuanyuan Roeder, Thomas Animals Aquatic Organisms Ecosystem Models, Animal Water Pollutants, Chemical is gaining increasing recognition as a model organism for toxicological studies in marine ecosystems and expands the range of simple animal models currently used. Water pollution caused by human activities not only endangers environmental integrity but also affects human health, underlining the need to monitor water pollution effectively. This review describes the distinctive characteristics of , including its rapid reproductive cycle, increased sensitivity to environmental variability, and remarkable regenerative abilities. Over the last thirty years, has been used in various research areas, particularly molecular biology and toxicology. This endeavor has benefited from significant advances in genome and transcriptome technologies. Recent investigations have revealed its sensitivity to various pollutants and highlighted its potential for assessing toxicological effects at the physiological and molecular levels. Furthermore, the ecological versatility and stable microbiome of make it an exemplary model for research into pollutant interactions in marine ecosystems. Despite challenges associated with its complex genomic architecture, ongoing genomic efforts are promising to significantly enhance its utility in toxicological research. This review underscores the pivotal role of in advancing environmental health studies and outlines future research directions to maximize its potential as a model organism.
format Artículo científico
id pubmed_39684802
institution PubMed
language en
publishDate 2024
publisher International journal of molecular sciences
record_format pubmed
spellingShingle Complements the Portfolio of Simple Animal Models Used for Marine Toxicological Studies.
Ma, Yuanyuan
Roeder, Thomas
Animals
Aquatic Organisms
Ecosystem
Models, Animal
Water Pollutants, Chemical
Complements the Portfolio of Simple Animal Models Used for Marine Toxicological Studies. Ma, Yuanyuan Roeder, Thomas Animals Aquatic Organisms Ecosystem Models, Animal Water Pollutants, Chemical is gaining increasing recognition as a model organism for toxicological studies in marine ecosystems and expands the range of simple animal models currently used. Water pollution caused by human activities not only endangers environmental integrity but also affects human health, underlining the need to monitor water pollution effectively. This review describes the distinctive characteristics of , including its rapid reproductive cycle, increased sensitivity to environmental variability, and remarkable regenerative abilities. Over the last thirty years, has been used in various research areas, particularly molecular biology and toxicology. This endeavor has benefited from significant advances in genome and transcriptome technologies. Recent investigations have revealed its sensitivity to various pollutants and highlighted its potential for assessing toxicological effects at the physiological and molecular levels. Furthermore, the ecological versatility and stable microbiome of make it an exemplary model for research into pollutant interactions in marine ecosystems. Despite challenges associated with its complex genomic architecture, ongoing genomic efforts are promising to significantly enhance its utility in toxicological research. This review underscores the pivotal role of in advancing environmental health studies and outlines future research directions to maximize its potential as a model organism.
title Complements the Portfolio of Simple Animal Models Used for Marine Toxicological Studies.
topic Animals
Aquatic Organisms
Ecosystem
Models, Animal
Water Pollutants, Chemical
url https://pubmed.ncbi.nlm.nih.gov/39684802/