SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W1520989189> ?p ?o ?g. }

Showing items 1 to 100 of ±164 with 100 items per page.

W1520989189 endingPage "134" @default.
W1520989189 startingPage "126" @default.
W1520989189 abstract "Thorough investigation of the glycine conjugation pathway has been neglected. No defect of the glycine conjugation pathway has been reported and this could reflect the essential role of glycine conjugation in hepatic metabolism. Therefore, we hypothesised that genetic variation in the open reading frame (ORF) of the GLYAT gene should be low and that deleterious alleles would be found at low frequencies. This hypothesis was investigated by analysing the genetic variation of the human GLYAT ORF using data available in public databases. We also sequenced the GLYAT ORF of a small cohort of South African Afrikaner Caucasian individuals. In total, data from 1537 individuals was analysed. The two most prominent GLYAT haplotypes in all populations analysed, were S156 (70%) and T17S156 (20%). The S156C199 and S156H131 haplotypes, which have a negative effect on the enzyme activity of a recombinant human GLYAT, were detected at very low frequencies. In the Afrikaner Caucasian cohort a novel Q61L SNP occurring at a high frequency (12%) was detected. The results of this study indicated that the GLYAT ORF is highly conserved and supported the hypothesis that the glycine conjugation pathway is an essential detoxification pathway. These findings emphasise the importance of future investigations to determine the in vivo capacity of the glycine conjugation pathway for the detoxification of benzoate and other xenobiotics." @default.
W1520989189 created "2016-06-24" @default.
W1520989189 creator A5009485111 @default.
W1520989189 creator A5012025850 @default.
W1520989189 creator A5022551654 @default.
W1520989189 creator A5043877858 @default.
W1520989189 creator A5081589040 @default.
W1520989189 creator A5087942494 @default.
W1520989189 date "2015-10-01" @default.
W1520989189 modified "2023-09-25" @default.
W1520989189 title "Conservation of the coding regions of the glycine N-acyltransferase gene further suggests that glycine conjugation is an essential detoxification pathway" @default.
W1520989189 cites W126864726 @default.
W1520989189 cites W133273613 @default.
W1520989189 cites W1530639715 @default.
W1520989189 cites W1914622032 @default.
W1520989189 cites W1950516314 @default.
W1520989189 cites W1964127355 @default.
W1520989189 cites W1965436096 @default.
W1520989189 cites W1965809997 @default.
W1520989189 cites W1967386815 @default.
W1520989189 cites W1973220508 @default.
W1520989189 cites W1974372375 @default.
W1520989189 cites W1978116054 @default.
W1520989189 cites W1981578954 @default.
W1520989189 cites W1982323015 @default.
W1520989189 cites W1983181572 @default.
W1520989189 cites W1983425639 @default.
W1520989189 cites W1984788813 @default.
W1520989189 cites W1996114410 @default.
W1520989189 cites W2007185692 @default.
W1520989189 cites W2012973022 @default.
W1520989189 cites W2017308278 @default.
W1520989189 cites W2018737510 @default.
W1520989189 cites W2022658862 @default.
W1520989189 cites W2026046506 @default.
W1520989189 cites W2026285053 @default.
W1520989189 cites W2027266979 @default.
W1520989189 cites W2030362999 @default.
W1520989189 cites W2036302548 @default.
W1520989189 cites W2037136746 @default.
W1520989189 cites W2039428376 @default.
W1520989189 cites W2045189096 @default.
W1520989189 cites W2061539393 @default.
W1520989189 cites W2063646359 @default.
W1520989189 cites W2064028310 @default.
W1520989189 cites W2070510406 @default.
W1520989189 cites W2077856933 @default.
W1520989189 cites W2080130381 @default.
W1520989189 cites W2081335631 @default.
W1520989189 cites W2086632855 @default.
W1520989189 cites W2088332979 @default.
W1520989189 cites W2089716907 @default.
W1520989189 cites W2090645754 @default.
W1520989189 cites W2091151261 @default.
W1520989189 cites W2092397950 @default.
W1520989189 cites W2094714186 @default.
W1520989189 cites W2096791516 @default.
W1520989189 cites W2101147266 @default.
W1520989189 cites W2103927572 @default.
W1520989189 cites W2107421255 @default.
W1520989189 cites W2107916366 @default.
W1520989189 cites W2113155528 @default.
W1520989189 cites W2113420705 @default.
W1520989189 cites W2118915258 @default.
W1520989189 cites W2120321361 @default.
W1520989189 cites W2122628215 @default.
W1520989189 cites W2127855707 @default.
W1520989189 cites W2129316818 @default.
W1520989189 cites W2130799876 @default.
W1520989189 cites W2131110533 @default.
W1520989189 cites W2132081049 @default.
W1520989189 cites W2132393729 @default.
W1520989189 cites W2132926880 @default.
W1520989189 cites W2135693353 @default.
W1520989189 cites W2140745021 @default.
W1520989189 cites W2140784970 @default.
W1520989189 cites W2145705897 @default.
W1520989189 cites W2147337743 @default.
W1520989189 cites W2152207030 @default.
W1520989189 cites W2154097633 @default.
W1520989189 cites W2154489449 @default.
W1520989189 cites W2154963292 @default.
W1520989189 cites W2155897723 @default.
W1520989189 cites W2157211482 @default.
W1520989189 cites W2161901490 @default.
W1520989189 cites W2163036271 @default.
W1520989189 cites W2166328287 @default.
W1520989189 cites W2171662488 @default.
W1520989189 cites W2315246552 @default.
W1520989189 cites W2339614621 @default.
W1520989189 cites W2558692177 @default.
W1520989189 cites W4211019970 @default.
W1520989189 cites W4239149238 @default.
W1520989189 doi "https://doi.org/10.1016/j.gene.2015.06.081" @default.
W1520989189 hasPubMedId "https://pubmed.ncbi.nlm.nih.gov/26149650" @default.
W1520989189 hasPublicationYear "2015" @default.
W1520989189 type Work @default.
W1520989189 sameAs 1520989189 @default.