Yuh-Hwa Wang
· Professor of Genome instability in cancer and repeat expansion diseasesUniversity of Virginia · Biochemistry and Molecular Genetics
Active 1994–2016
About
Yuh-Hwa Wang is a Professor of Biochemistry and Molecular Genetics at the University of Virginia School of Medicine. She holds a PhD from North Carolina State University. Her research focuses on understanding the structure and function of unusual DNA sequences in living cells, particularly how these sequences cause genome instability and lead to human diseases. Her work has significant implications for understanding chromosomal fragile sites, which are correlated with chromosomal deletions and gene rearrangements found in many cancers. She investigates the genesis of breakpoints at fragile sites during oncogenesis, examining chromatin structure, DNA replication, cell cycle checkpoints, and mechanisms of gene rearrangements such as RET/PTC. Additionally, her research explores trinucleotide repeat expansion diseases, analyzing the role of chromatin and DNA structure in disease pathology and repeat expansion mechanisms. Her laboratory provides training in chromatin biology, DNA repair, cell culture, molecular biology techniques, cytogenetics, and electron microscopy.
Research topics
- Biology
- Genetics
- Molecular biology
- Chemistry
- Biophysics
Selected publications
Journal of Biological Chemistry · 2020 · 38 citations
- Biology
- Molecular biology
- Genetics
DNA double-stranded breaks (DSBs) are strongly associated with active transcription, and promoter-proximal pausing of RNA polymerase II (Pol II) is a critical step in transcriptional regulation. Mapping the distribution of DSBs along actively expressed genes and identifying the location of DSBs relative to pausing sites can provide mechanistic insights into transcriptional regulation. Using genome-wide DNA break mapping/sequencing techniques at single-nucleotide resolution in human cells, we found that DSBs are preferentially located around transcription start sites of highly transcribed and paused genes and that Pol II promoter-proximal pausing sites are enriched in DSBs. We observed that DSB frequency at pausing sites increases as the strength of pausing increases, regardless of whether the pausing sites are near or far from annotated transcription start sites. Inhibition of topoisomerase I and II by camptothecin and etoposide treatment, respectively, increased DSBs at the pausing sites as the concentrations of drugs increased, demonstrating the involvement of topoisomerases in DSB generation at the pausing sites. DNA breaks generated by topoisomerases are short-lived because of the religation activity of these enzymes, which these drugs inhibit; therefore, the observation of increased DSBs with increasing drug doses at pausing sites indicated active recruitment of topoisomerases to these sites. Furthermore, the enrichment and locations of DSBs at pausing sites were shared among different cell types, suggesting that Pol II promoter-proximal pausing is a common regulatory mechanism. Our findings support a model in which topoisomerases participate in Pol II promoter-proximal pausing and indicated that DSBs at pausing sites contribute to transcriptional activation.
Recent grants
NIH · $2.0M · 2011
Genome-wide DNA Secondary Structure Analysis to Investigate DNA Fragility
NIH · $2.8M · 2013–2025
The Role of Fragile Sites in RET/PTC Rearrangement
NIH · $2.5M · 2005–2021
Frequent coauthors
- 40 shared
Jack D. Griffith
University of North Carolina at Chapel Hill
- 9 shared
Emmanuelle Delagoutte
Inserm
- 9 shared
Thomas R. Cech
University of Colorado Boulder
- 9 shared
Bengt Nordén
Chalmers University of Technology
- 9 shared
Felicia L. Murphy
University of Colorado Boulder
- 9 shared
David S. Hsu
Beckman Research Institute
- 9 shared
Elisabeth Bertrand-Burggraf
Centre National de la Recherche Scientifique
- 9 shared
Aziz Sancar
University of North Carolina at Chapel Hill
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