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W2569832015 endingPage "e0169351" @default.
W2569832015 startingPage "e0169351" @default.
W2569832015 abstract "Fetal alcohol spectrum disorder (FASD) is a leading cause of neurodevelopmental disability. Individuals with FASD may exhibit a characteristic facial appearance that has diagnostic utility. The mechanism by which alcohol disrupts craniofacial development is incompletely understood, as are the genetic factors that can modify individual alcohol vulnerability. Using an established avian model, we characterized the cranial transcriptome in response to alcohol to inform the mechanism underlying these cells' vulnerability. Gallus gallus embryos having 3-6 somites were exposed to 52 mM alcohol and the cranial transcriptomes were sequenced thereafter. A total of 3422 genes had significantly differential expression. The KEGG pathways with the greatest enrichment of differentially expressed gene clusters were Ribosome (P = 1.2 x 10-17, 67 genes), Oxidative Phosphorylation (P = 4.8 x 10-12, 60 genes), RNA Polymerase (P = 2.2 x 10-3, 15 genes) and Spliceosome (P = 2.6 x 10-2, 39 genes). The preponderance of transcripts in these pathways were repressed in response to alcohol. These same gene clusters also had the greatest altered representation in our previous comparison of neural crest populations having differential vulnerability to alcohol-induced apoptosis. Comparison of differentially expressed genes in alcohol-exposed (3422) and untreated, alcohol-vulnerable (1201) transcriptomes identified 525 overlapping genes of which 257 have the same direction of transcriptional change. These included 36 ribosomal, 25 oxidative phosphorylation and 7 spliceosome genes. Using a functional approach in zebrafish, partial knockdown of ribosomal proteins zrpl11, zrpl5a, and zrps3a individually heightened vulnerability to alcohol-induced craniofacial deficits and increased apoptosis. In humans, haploinsufficiency of several of the identified ribosomal proteins are causative in craniofacial dysmorphologies such as Treacher Collins Syndrome and Diamond-Blackfan Anemia. This work suggests ribosome biogenesis may be a novel target mediating alcohol's damage to developing neural crest. Our findings are consistent with observations that gene-environment interactions contribute to vulnerability in FASD." @default.
W2569832015 created "2017-01-13" @default.
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W2569832015 date "2017-01-03" @default.
W2569832015 modified "2023-10-16" @default.
W2569832015 title "Transcriptome Profiling Identifies Ribosome Biogenesis as a Target of Alcohol Teratogenicity and Vulnerability during Early Embryogenesis" @default.
W2569832015 cites W1546285048 @default.
W2569832015 cites W1668093331 @default.
W2569832015 cites W1868621517 @default.
W2569832015 cites W1964829088 @default.
W2569832015 cites W1965313133 @default.
W2569832015 cites W1965961814 @default.
W2569832015 cites W1970061078 @default.
W2569832015 cites W1972743299 @default.
W2569832015 cites W1975537268 @default.
W2569832015 cites W1976428870 @default.
W2569832015 cites W1976798783 @default.
W2569832015 cites W1977534471 @default.
W2569832015 cites W1979211289 @default.
W2569832015 cites W1981537564 @default.
W2569832015 cites W1991722888 @default.
W2569832015 cites W2003503128 @default.
W2569832015 cites W2004503871 @default.
W2569832015 cites W2006169009 @default.
W2569832015 cites W2008407032 @default.
W2569832015 cites W2012016429 @default.
W2569832015 cites W2013391063 @default.
W2569832015 cites W2025648013 @default.
W2569832015 cites W2030506448 @default.
W2569832015 cites W2040087306 @default.
W2569832015 cites W2040781457 @default.
W2569832015 cites W2041341347 @default.
W2569832015 cites W2045577258 @default.
W2569832015 cites W2047563641 @default.
W2569832015 cites W2049883153 @default.
W2569832015 cites W2052741786 @default.
W2569832015 cites W2064081765 @default.
W2569832015 cites W2069951084 @default.
W2569832015 cites W2073230598 @default.
W2569832015 cites W2080544569 @default.
W2569832015 cites W2081061320 @default.
W2569832015 cites W2081928322 @default.
W2569832015 cites W2084418847 @default.
W2569832015 cites W2092603433 @default.
W2569832015 cites W2092869829 @default.
W2569832015 cites W2099444111 @default.
W2569832015 cites W2105515478 @default.
W2569832015 cites W2114642259 @default.
W2569832015 cites W2120091527 @default.
W2569832015 cites W2121211805 @default.
W2569832015 cites W2121784259 @default.
W2569832015 cites W2124008535 @default.
W2569832015 cites W2128793955 @default.
W2569832015 cites W2135116344 @default.
W2569832015 cites W2136963255 @default.
W2569832015 cites W2144724081 @default.
W2569832015 cites W2146994504 @default.
W2569832015 cites W2149046852 @default.
W2569832015 cites W2152239989 @default.
W2569832015 cites W2152542204 @default.
W2569832015 cites W2152948116 @default.
W2569832015 cites W2158217645 @default.
W2569832015 cites W2159482845 @default.
W2569832015 cites W2161029943 @default.
W2569832015 cites W2169163460 @default.
W2569832015 cites W2238616621 @default.
W2569832015 cites W2300921120 @default.
W2569832015 cites W2324131865 @default.
W2569832015 cites W368011952 @default.
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W2569832015 doi "https://doi.org/10.1371/journal.pone.0169351" @default.
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