Your search keyword '"Boey, Esther J. H."' showing total 2 results

1. A MinION™‐based pipeline for fast and cost‐effective DNA barcoding.

Author

Srivathsan, Amrita, Baloğlu, Bilgenur, Tan, Wei X., Meier, Rudolf, Wang, Wendy, Bertrand, Denis, Ng, Amanda H. Q., Boey, Esther J. H., Koh, Jayce J. Y., and Nagarajan, Niranjan

Subjects

GENETIC barcoding, NANOPORES, ACCURACY, BIG data, HYPOTHESIS

Abstract

Abstract: DNA barcodes are useful for species discovery and species identification, but obtaining barcodes currently requires a well‐equipped molecular laboratory and is time‐consuming, and/or expensive. We here address these issues by developing a barcoding pipeline for Oxford Nanopore MinION™ and demonstrating that one flow cell can generate barcodes for ~500 specimens despite the high basecall error rates of MinION™ reads. The pipeline overcomes these errors by first summarizing all reads for the same tagged amplicon as a consensus barcode. Consensus barcodes are overall mismatch‐free but retain indel errors that are concentrated in homopolymeric regions. They are addressed with an optional error correction pipeline that is based on conserved amino acid motifs from publicly available barcodes. The effectiveness of this pipeline is documented by analysing reads from three MinION™ runs that represent three different stages of MinION™ development. They generated data for (i) 511 specimens of a mixed Diptera sample, (ii) 575 specimens of ants and (iii) 50 specimens of Chironomidae. The run based on the latest chemistry yielded MinION™ barcodes for 490 of the 511 specimens which were assessed against reference Sanger barcodes (N = 471). Overall, the MinION™ barcodes have an accuracy of 99.3%–100% with the number of ambiguous bases after correction ranging from <0.01% to 1.5% depending on which correction pipeline is used. We demonstrate that it requires ~2 hr of sequencing to gather all information needed for obtaining reliable barcodes for most specimens (>90%). We estimate that up to 1,000 barcodes can be generated in one flow cell and that the cost per barcode can be

Published

2018

2. Therapeutic silencing of miR-652 restores heart function and attenuates adverse remodeling in a setting of established pathological hypertrophy.

Author

Bernardo, Bianca C., Nguyen, Sally S., Winbanks, Catherine E., Xiao-Ming Gao, Boey, Esther J. H., Yow Keat Tham, Kiriazis, Helen, Ooi, Jenny Y. Y., Porrello, Enzo R., Igoor, Sindhu, Thomas, Colleen J., Gregorevic, Paul, Lin, Ruby C. Y., Xiao-Jun Du, and McMullen, Julie R.

Subjects

GENE expression, MICRORNA, HEART diseases, HYPERTROPHY, NUCLEIC acids

Abstract

Expression of microRNA-652 (miR-652) increases in the diseased heart, decreases in a setting of cardioprotection, and is inversely correlated with heart function. The aim of this study was to assess the therapeutic potential of inhibiting miR-652 in a mouse model with established pathological hypertrophy and cardiac dysfunction due to pressure overload. Mice were subjected to a sham operation or transverse aortic constriction (TAC) for 4 wk to induce hypertrophy and cardiac dysfunction, followed by administration of a locked nucleic acid (LNA)-antimiR-652 (miR-652 inhibitor) or LNA control. Cardiac function was assessed before and 8 wk post-treatment. Expression of miR-652 increased in hearts subjected to TAC compared to sham surgery (2.9-fold), and this was suppressed by ~95% in LNA-antimiR-652-treated TAC mice. Inhibition of miR-652 improved cardiac function in TAC mice (fractional shortening:29±1% at 4 wk post-TAC compared to 35±1% post-treatment) and attenuated cardiac hypertrophy. Improvement in heart function was associated with reduced cardiac fibrosis, less apoptosis and B-type natriuretic peptide gene expression, and preserved angiogenesis. Mechanistically, we identified Jaggedl (a Notchl ligand) as a novel direct target of miR-652. In summary, these studies provide the first evidence that silencing of miR-652 protects the heart against pathological remodeling and improves heart function. [ABSTRACT FROM AUTHOR]

Published

2014