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W2140442838 abstract "Mouse embryonic stem (ES) cells were used as an experimental model to study the effects of electromagnetic fields (EMF). ES-derived nestin-positive neural progenitor cells were exposed to extremely low frequency EMF simulating power line magnetic fields at 50 Hz (ELF-EMF) and to radiofrequency EMF simulating the Global System for Mobile Communication (GSM) signals at 1.71 GHz (RF-EMF). Following EMF exposure, cells were analyzed for transcript levels of cell cycle regulatory, apoptosis-related, and neural-specific genes and proteins; changes in proliferation; apoptosis; and cytogenetic effects. Quantitative RT-PCR analysis revealed that ELF-EMF exposure to ES-derived neural cells significantly affected transcript levels of the apoptosis-related bcl-2, bax, and cell cycle regulatory growth arrest DNA damage inducible GADD45 genes, whereas mRNA levels of neural-specific genes were not affected. RF-EMF exposure of neural progenitor cells resulted in down-regulation of neural-specific Nurr1 and in up-regulation of bax and GADD45 mRNA levels. Short-term RF-EMF exposure for 6 h, but not for 48 h, resulted in a low and transient increase of DNA double-strand breaks. No effects of ELF- and RF-EMF on mitochondrial function, nuclear apoptosis, cell proliferation, and chromosomal alterations were observed. We may conclude that EMF exposure of ES-derived neural progenitor cells transiently affects the transcript level of genes related to apoptosis and cell cycle control. However, these responses are not associated with detectable changes of cell physiology, suggesting compensatory mechanisms at the translational and posttranslational level." @default.
W2140442838 created "2016-06-24" @default.
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W2140442838 date "2005-08-22" @default.
W2140442838 modified "2023-10-04" @default.
W2140442838 title "Electromagnetic fields affect transcript levels of apoptosis‐related genes in embryonic stem cell‐derived neural progenitor cells" @default.
W2140442838 cites W1501444689 @default.
W2140442838 cites W1529892507 @default.
W2140442838 cites W1559257092 @default.
W2140442838 cites W1596182601 @default.
W2140442838 cites W177967468 @default.
W2140442838 cites W1794659513 @default.
W2140442838 cites W1966250971 @default.
W2140442838 cites W1966651109 @default.
W2140442838 cites W1966697925 @default.
W2140442838 cites W1967311834 @default.
W2140442838 cites W1969986792 @default.
W2140442838 cites W1978961498 @default.
W2140442838 cites W1983274440 @default.
W2140442838 cites W1986179131 @default.
W2140442838 cites W1988671949 @default.
W2140442838 cites W1989243649 @default.
W2140442838 cites W1996081226 @default.
W2140442838 cites W1997907275 @default.
W2140442838 cites W1998960522 @default.
W2140442838 cites W2006119838 @default.
W2140442838 cites W2006984368 @default.
W2140442838 cites W2018831732 @default.
W2140442838 cites W2024126937 @default.
W2140442838 cites W2028036903 @default.
W2140442838 cites W2029674670 @default.
W2140442838 cites W2032647396 @default.
W2140442838 cites W2033988020 @default.
W2140442838 cites W2040506871 @default.
W2140442838 cites W2044108594 @default.
W2140442838 cites W2051914601 @default.
W2140442838 cites W2052523909 @default.
W2140442838 cites W2053047024 @default.
W2140442838 cites W2056051410 @default.
W2140442838 cites W2056806100 @default.
W2140442838 cites W2059362512 @default.
W2140442838 cites W2061115935 @default.
W2140442838 cites W2061185374 @default.
W2140442838 cites W2062674518 @default.
W2140442838 cites W2067814364 @default.
W2140442838 cites W2069004183 @default.
W2140442838 cites W2071749922 @default.
W2140442838 cites W2076198146 @default.
W2140442838 cites W2076736048 @default.
W2140442838 cites W2078317192 @default.
W2140442838 cites W2080939286 @default.
W2140442838 cites W2081607665 @default.
W2140442838 cites W2082138473 @default.
W2140442838 cites W2082285218 @default.
W2140442838 cites W2087476273 @default.
W2140442838 cites W2089337274 @default.
W2140442838 cites W2090450674 @default.
W2140442838 cites W2092807104 @default.
W2140442838 cites W2094344570 @default.
W2140442838 cites W2094912856 @default.
W2140442838 cites W2094944416 @default.
W2140442838 cites W2100012145 @default.
W2140442838 cites W2101995901 @default.
W2140442838 cites W2111426613 @default.
W2140442838 cites W2112716968 @default.
W2140442838 cites W2121530025 @default.
W2140442838 cites W2133247271 @default.
W2140442838 cites W2147166036 @default.
W2140442838 cites W2152288875 @default.
W2140442838 cites W2155967383 @default.
W2140442838 cites W2164443122 @default.
W2140442838 cites W2177781132 @default.
W2140442838 cites W2180493356 @default.
W2140442838 cites W4253111880 @default.
W2140442838 doi "https://doi.org/10.1096/fj.04-3549fje" @default.
W2140442838 hasPubMedId "https://pubmed.ncbi.nlm.nih.gov/16116041" @default.
W2140442838 hasPublicationYear "2005" @default.
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