Len A. Pennacchio scite author profile

Nonalcoholic fatty liver disease (NAFLD) is a burgeoning health problem of unknown etiology that varies in prevalence among ethnic groups. To identify genetic variants contributing to differences in hepatic fat content, we performed a genome-wide association scan of nonsynonymous sequence variations (n=9,229) in a multiethnic population. An allele in PNPLA3 (rs738409; I148M) was strongly associated with increased hepatic fat levels (P=5.9×10−10) and with hepatic inflammation (P=3.7×10−4). The allele was most common in Hispanics, the group most susceptible to NAFLD; hepatic fat content was > 2-fold higher in PNPLA3-148M homozygotes than in noncarriers. Resequencing revealed another allele associated with lower hepatic fat content in African-Americans, the group at lowest risk of NAFLD. Thus, variation in PNPLA3 contributes to ethnic and inter-individual differences in hepatic fat content and susceptibility to NAFLD.

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ChIP-seq accurately predicts tissue-specific activity of enhancers

Visel

Blow

et al. 2009

Nature

1,519

1,547

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A major yet unresolved quest in decoding the human genome is the identification of the regulatory sequences that control the spatial and temporal expression of genes. Distant-acting transcriptional enhancers are particularly challenging to uncover because they are scattered among the vast noncoding portion of the genome. Evolutionary sequence constraint can facilitate the discovery of enhancers, but fails to predict when and where they are active in vivo. Here we present the results of chromatin immunoprecipitation with the enhancer-associated protein p300 followed by massively parallel sequencing, and map several thousand in vivo binding sites of p300 in mouse embryonic forebrain, midbrain and limb tissue. We tested 86 of these sequences in a transgenic mouse assay, which in nearly all cases demonstrated reproducible enhancer activity in the tissues that were predicted by p300 binding. Our results indicate that in vivo mapping of p300 binding is a highly accurate means for identifying enhancers and their associated activities, and suggest that such data sets will be useful to study the role of tissue-specific enhancers in human biology and disease on a genome-wide scale.The initial sequencing of the human genome 1,2 , complemented by effective computational and experimental strategies for mammalian gene discovery 3,4 , has resulted in a virtually complete list of protein-coding sequences. In contrast, the genomic location and function of regulatory elements that orchestrate gene expression in the developing and adult body remain more obscure, hindering studies of their contribution to developmental processes and human disease. Evolutionary constraint of non-coding sequences can predict the location of enhancers in the genome 5-12 , but does not reveal when and where these enhancers are active in vivo. Furthermore, it has been suggested that a substantial proportion of regulatory elements is not sufficiently conserved to be detectable by comparative genomic methods [13][14][15][16] .

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The amphioxus genome and the evolution of the chordate karyotype

Putnam

Butts

Ferrier

et al. 2008

Nature

1,474

1,451

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Len A. Pennacchio

Genetic variation in PNPLA3 confers susceptibility to nonalcoholic fatty liver disease

ChIP-seq accurately predicts tissue-specific activity of enhancers

The amphioxus genome and the evolution of the chordate karyotype

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