Enregistré dans:
Détails bibliographiques
Auteurs principaux: Mithra, Sivaraj, Madiha Fathima, Basheer, Abdul Majeed, Seepoo, Taju, Gani, Mohammed Safiullah, Sakvai, Mujthaba Aatif, Arni, Vimal, Sugumar, Zehra, Amtuz, Martina, Sahayarajan, Ghousia Nisha, Ahmed Hussain, Sahul Hameed, Azeez Sait
Format: Artículo científico
Langue:en
Publié: Marine pollution bulletin 2025
Sujets:
Accès en ligne:https://pubmed.ncbi.nlm.nih.gov/40049112/
Tags: Ajouter un tag
Pas de tags, Soyez le premier à ajouter un tag!
_version_ 1868266234558021632
author Mithra, Sivaraj
Madiha Fathima, Basheer
Abdul Majeed, Seepoo
Taju, Gani
Mohammed Safiullah, Sakvai
Mujthaba Aatif, Arni
Vimal, Sugumar
Zehra, Amtuz
Martina, Sahayarajan
Ghousia Nisha, Ahmed Hussain
Sahul Hameed, Azeez Sait
author_facet Mithra, Sivaraj
Madiha Fathima, Basheer
Abdul Majeed, Seepoo
Taju, Gani
Mohammed Safiullah, Sakvai
Mujthaba Aatif, Arni
Vimal, Sugumar
Zehra, Amtuz
Martina, Sahayarajan
Ghousia Nisha, Ahmed Hussain
Sahul Hameed, Azeez Sait
Mithra, Sivaraj
Madiha Fathima, Basheer
Abdul Majeed, Seepoo
Taju, Gani
Mohammed Safiullah, Sakvai
Mujthaba Aatif, Arni
Vimal, Sugumar
Zehra, Amtuz
Martina, Sahayarajan
Ghousia Nisha, Ahmed Hussain
Sahul Hameed, Azeez Sait
collection PubMed - marine biology
contents Effects of selected heavy metals on neuronal differentiation of Asian seabass spinal cord cell line. Mithra, Sivaraj Madiha Fathima, Basheer Abdul Majeed, Seepoo Taju, Gani Mohammed Safiullah, Sakvai Mujthaba Aatif, Arni Vimal, Sugumar Zehra, Amtuz Martina, Sahayarajan Ghousia Nisha, Ahmed Hussain Sahul Hameed, Azeez Sait Animals Metals, Heavy Cell Differentiation Neurons Spinal Cord Bass Cell Line Water Pollutants, Chemical Asian seabass spinal cord cell line (SBSC) can be differentiated into neuron-like phenotypes through induction with neurotrophin-3 (NT-3), all-trans-retinoic acid (ATRA) and Insulin-like growth factor-I human (IGFI). Following differentiation, this cell line could be used as an in vitro models for investigating various aspects of neuronal cell biology. The study of metal cytotoxicity involved the use of Asian seabass, an important marine fish. The present study was to determine the cytotoxicity of eleven heavy metals (Fe, Co, Cd, Cu, Na, Hg, Zn, In, Al, Lu and Cr) in the SBSC cell line based on MTT, neutral red (NR) uptake assays and ROS production. This study determined the effective concentrations (EC and EC) of eleven metals in SBSC cells. The result of the present study demonstrates that the EC concentration of selected metals affects the neuronal differentiation in the SBSC cells.
format Artículo científico
id pubmed_40049112
institution PubMed
language en
publishDate 2025
publisher Marine pollution bulletin
record_format pubmed
spellingShingle Effects of selected heavy metals on neuronal differentiation of Asian seabass spinal cord cell line.
Mithra, Sivaraj
Madiha Fathima, Basheer
Abdul Majeed, Seepoo
Taju, Gani
Mohammed Safiullah, Sakvai
Mujthaba Aatif, Arni
Vimal, Sugumar
Zehra, Amtuz
Martina, Sahayarajan
Ghousia Nisha, Ahmed Hussain
Sahul Hameed, Azeez Sait
Animals
Metals, Heavy
Cell Differentiation
Neurons
Spinal Cord
Bass
Cell Line
Water Pollutants, Chemical
Effects of selected heavy metals on neuronal differentiation of Asian seabass spinal cord cell line. Mithra, Sivaraj Madiha Fathima, Basheer Abdul Majeed, Seepoo Taju, Gani Mohammed Safiullah, Sakvai Mujthaba Aatif, Arni Vimal, Sugumar Zehra, Amtuz Martina, Sahayarajan Ghousia Nisha, Ahmed Hussain Sahul Hameed, Azeez Sait Animals Metals, Heavy Cell Differentiation Neurons Spinal Cord Bass Cell Line Water Pollutants, Chemical Asian seabass spinal cord cell line (SBSC) can be differentiated into neuron-like phenotypes through induction with neurotrophin-3 (NT-3), all-trans-retinoic acid (ATRA) and Insulin-like growth factor-I human (IGFI). Following differentiation, this cell line could be used as an in vitro models for investigating various aspects of neuronal cell biology. The study of metal cytotoxicity involved the use of Asian seabass, an important marine fish. The present study was to determine the cytotoxicity of eleven heavy metals (Fe, Co, Cd, Cu, Na, Hg, Zn, In, Al, Lu and Cr) in the SBSC cell line based on MTT, neutral red (NR) uptake assays and ROS production. This study determined the effective concentrations (EC and EC) of eleven metals in SBSC cells. The result of the present study demonstrates that the EC concentration of selected metals affects the neuronal differentiation in the SBSC cells.
title Effects of selected heavy metals on neuronal differentiation of Asian seabass spinal cord cell line.
topic Animals
Metals, Heavy
Cell Differentiation
Neurons
Spinal Cord
Bass
Cell Line
Water Pollutants, Chemical
url https://pubmed.ncbi.nlm.nih.gov/40049112/