The Goh lab studies how RNA modifications (epitranscriptome) regulate gene expression and cellular processes by developing new technologies to sequence RNA modifications and functionally characterizing novel epitranscriptomic factors that interact with and metabolize RNA modifications. Defects in epitranscriptomic regulation cause a variety of diseases and determining the mechanistic basis that underlie these defects will be crucial for developing effective epitranscriptomic-based therapeutic strategies.   gohlab.org

近期代表性论:

Pratanwanich PN*, Yao F, Chen Y, Koh CWQ, Hendra C, Poon P, Goh YT, Yap PML, Yuan CJ, Chng WJ, Ng SB, Thiery A, Goh WSS*, Göke J*. Detection of differential RNA modifications from direct RNA sequencing of human cell lines (2021) Nature Biotechnology.

Goh YT, Koh CWQ, Sim DY, Roca X*, Goh WSS*. METTL4 catalyzes N6-methylation of adenosines in U2 snRNA to regulate pre-mRNA splicing (2020) Nucleic Acids Research.

Koh CWQ, Goh YT, Goh WSS*. Atlas of quantitative single-base-resolution N6-methyl-adenine methylomes (2019) Nature Communications.

Koh CWQ, Goh YT, Toh JDW, Neo SP, Ng SB, Gunaratne J, Gao YG, Quake SR, Burkholder WF, Goh WSS*. Single-Nucleotide-Resolution Sequencing of Human N6-Methyldeoxyadenosine Reveals Strand-Asymmetric Clusters Associated with SSBP1 on the Mitochondrial Genome (2018) Nucleic Acids Research (Highlighted in NAR Breakthrough Article).

Goh WSS, Falciatori I, Tam OH, Burgess R, Meikar O, Kotaja N, Hammell M, Hannon GJ*. piRNA-Directed Cleavage f Meiotic Transcripts Regulates Spermatogenesis (2015) Genes & Development.