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W2016486385 abstract "The recent development of human exome sequencing technology has revealed that our immune system is riddled with more genetic defects than anyone imagined. As a legacy of the recent human population explosion, we each inherit hundreds of rare mutations that alter the sequence of proteins. This mutation load is ten times higher than that induced by experimental treatment of mice by ethylnitrosourea; a high fraction of which has substantial effects on immune function. This mutation burden is likely to be a major factor in the incidence of many human immune disorders, but understanding this at the level of individual patients will require new bioinformatics and experimental strategies to assess the impact of individual and combined mutations on immune response pathways. The recent development of human exome sequencing technology has revealed that our immune system is riddled with more genetic defects than anyone imagined. As a legacy of the recent human population explosion, we each inherit hundreds of rare mutations that alter the sequence of proteins. This mutation load is ten times higher than that induced by experimental treatment of mice by ethylnitrosourea; a high fraction of which has substantial effects on immune function. This mutation burden is likely to be a major factor in the incidence of many human immune disorders, but understanding this at the level of individual patients will require new bioinformatics and experimental strategies to assess the impact of individual and combined mutations on immune response pathways." @default.
W2016486385 created "2016-06-24" @default.
W2016486385 creator A5022410918 @default.
W2016486385 creator A5028488933 @default.
W2016486385 creator A5070851567 @default.
W2016486385 date "2013-03-01" @default.
W2016486385 modified "2023-10-03" @default.
W2016486385 title "Understanding the immunological impact of the human mutation explosion" @default.
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W2016486385 doi "https://doi.org/10.1016/j.it.2012.12.001" @default.
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