Your search keyword '"Rizi Ai"' showing total 2 results

1. Assessing characteristics of RNA amplification methods for single cell RNA sequencing.

Author

Dueck, Hannah R., Rizi Ai, Camarena, Adrian, Bo Ding, Dominguez, Reymundo, Evgrafov, Oleg V., Jian-Bing Fan, Fisher, Stephen A., Herstein, Jennifer S., Tae Kyung Kim, Jae Mun (Hugo) Kim, Ming-Yi Lin, Rui Liu, Mack, William J., McGroty, Sean, Nguyen, Joseph D., Salathia, Neeraj, Shallcross, Jamie, Souaiaia, Tade, and Spaethling, Jennifer M.

Subjects

NUCLEIC acid amplification techniques, RNA sequencing, GENE expression, NUCLEOTIDE sequence, POLYMERASE chain reaction

Abstract

Background: Recently, measurement of RNA at single cell resolution has yielded surprising insights. Methods for single-cell RNA sequencing (scRNA-seq) have received considerable attention, but the broad reliability of single cell methods and the factors governing their performance are still poorly known. Results: Here, we conducted a large-scale control experiment to assess the transfer function of three scRNA-seq methods and factors modulating the function. All three methods detected greater than 70% of the expected number of genes and had a 50% probability of detecting genes with abundance greater than 2 to 4 molecules. Despite the small number of molecules, sequencing depth significantly affected gene detection. While biases in detection and quantification were qualitatively similar across methods, the degree of bias differed, consistent with differences in molecular protocol. Measurement reliability increased with expression level for all methods and we conservatively estimate measurements to be quantitative at an expression level greater than ~5-10 molecules. Conclusions: Based on these extensive control studies, we propose that RNA-seq of single cells has come of age, yielding quantitative biological information. [ABSTRACT FROM AUTHOR]

Published

2016

2. Computationally expanding infinium HumanMethylation450 BeadChip array data to reveal distinct DNA methylation patterns of rheumatoid arthritis.

Author

Shicai Fan, Chengzhe Li, Rizi Ai, Mengchi Wang, Firestein, Gary S., and Wei Wang

Subjects

DNA methylation, RHEUMATOID arthritis, FIBROBLASTS, GENES, NUCLEOTIDE sequencing

Abstract

Motivation: DNA methylation signatures in rheumatoid arthritis (RA) have been identified in fibroblast-like synoviocytes (FLS) with Illumina HumanMethylation450 array. Since <2% of CpG sites are covered by the Illumina 450K array and whole genome bisulfite sequencing is still too expensive for many samples, computationally predicting DNA methylation levels based on 450K data would be valuable to discover more RA-related genes. Results: We developed a computational model that is trained on 14 tissues with both whole genome bisulfite sequencing and 450K array data. This model integrates information derived from the similarity of local methylation pattern between tissues, the methylation information of flanking CpG sites and the methylation tendency of flanking DNA sequences. The predicted and measured methylation values were highly correlated with a Pearson correlation coefficient of 0.9 in leave- one-tissue-out cross-validations. Importantly, the majority (76%) of the top 10% differentially methylated loci among the 14 tissues was correctly detected using the predicted methylation values. Applying this model to 450K data of RA, osteoarthritis and normal FLS, we successfully expanded the coverage of CpG sites 18.5-fold and accounts for about 30% of all the CpGs in the human genome. By integrative omics study, we identified genes and pathways tightly related to RA pathogenesis, among which 12 genes were supported by triple evidences, including 6 genes already known to perform specific roles in RA and 6 genes as new potential therapeutic targets. [ABSTRACT FROM AUTHOR]

Published

2016