Jennifer Li‐Pook‐Than scite author profile

Gene expression differs among both individuals and populations and is thought to be a major determinant of phenotypic variation. Although variation and genetic loci responsible for RNA expression levels have been analyzed extensively in human populations1–5, our knowledge is limited regarding the differences in human protein abundance and their genetic basis. Variation in mRNA expression is not a perfect surrogate for protein expression because the latter is influenced by a battery of post-transcriptional regulatory mechanisms, and, empirically, the correlation between protein and mRNA levels is generally modest6,7. Here we used isobaric tandem mass tag (TMT)-based quantitative mass spectrometry to determine relative protein levels of 5953 genes in lymphoblastoid cell lines (LCLs) from 95 diverse individuals genotyped in the HapMap Project8,9. We found that protein levels are heritable molecular phenotypes that exhibit considerable variation between individuals, populations, and sexes. Levels of specific sets of proteins involved in the same biological process co-vary among individuals, indicating that these processes are tightly regulated at the protein level. We identified cis-pQTLs (protein quantitative trait loci), including variants not detected by previous transcriptome studies. This study demonstrates the feasibility of high throughput human proteome quantification which, when integrated with DNA variation and transcriptome information, adds a new dimension to the characterization of gene expression regulation.

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Multiple physical forms of excised group II intron RNAs in wheat mitochondria

Li‐Pook‐Than

Bonen

2006

Nucleic Acids Research

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Plant mitochondrial group II introns do not all possess hallmark ribozymic features such as the bulged adenosine involved in lariat formation. To gain insight into their splicing pathways, we have examined the physical form of excised introns in germinating wheat embryos. Using RT–PCR and cRT–PCR, we observed conventional lariats consistent with a two-step transesterification pathway for introns such as nad2 intron 4, but this was not the case for the cox2 intron or nad1 intron 2. For cox2, we detected full-length linear introns, which possess non-encoded 3′terminaladenosines, as well as heterogeneous circular introns, which lack 3′ nucleotide stretches. These observations are consistent with hydrolytic splicing followed by polyadenylation as well as an in vivo circularization pathway, respectively. The presence of both linear and circular species in vivo is supported by RNase H analysis. Furthermore, the nad1 intron 2, which lacks a bulged nucleotide at the branchpoint position, comprised a mixed population of precisely full-length molecules and circular ones which also include a short, discrete block of non-encoded nucleotides. The presence of these various linear and circular forms of excised intron molecules in plant mitochondria points to multiple novel group II splicing mechanisms in vivo.

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Longitudinal personal DNA methylome dynamics in a human with a chronic condition

Chen

Xia

et al. 2018

Nat Med

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iPOP Goes the World: Integrated Personalized Omics Profiling and the Road toward Improved Health Care

Li‐Pook‐Than

Snyder

2013

Chemistry & Biology

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The health of an individual depends upon their DNA as well as environmental factors (environome or exposome). It is expected that although the genome is the blueprint of an individual, its analysis with that of the other omes, such as the DNA methylome, the transcriptome, proteome, as well as metabolome will further provide a dynamic assessment of the physiology and health state of an individual. This review will help to categorize the current progress of omics analyses, and how omics integration can be used for medical research. We believe that integrative Personal Omics Profiling (iPOP) is a stepping stone to a new road to personalized health care and may improve 1) Disease risk assessment, 2) Accuracy of diagnosis, 3) Disease monitoring, 4) Targeted treatments and 5) Understanding the biological processes of disease states for their prevention.

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