Fork rescue and the SSB interactome

  1. Bianco, P. R. (2021) The SSB interactome – the first OB-fold family of genome guardians in prokaryotes, Protein Science, in press.
  2. Tan, H. Y., and Bianco, P.R. (2021) SSB facilitates fork substrate discrimination by PriA, ACS Omega in press.
  3. Yu, C., and Bianco, P. R. (2021) In Vivo Binding of Single-Stranded DNA-Binding Protein to Stalled Replication Fork Helicases, In Methods Molecular Biology, Single Stranded DNA Binding Proteins (Oliveira, M. T., Ed.).
  4. Lu, Y., and Bianco, P. R. (2021) High yield purification of exceptional-quality DNA substrates suitable for single-molecule studies, J Biological Methods 8, 1-9.
  5. Bianco, P. R., and Lu, Y. (2021) Single molecule studies of stalled DNA replication fork rescue in E.coli, Nucleic Acids Research in press.
  6. Ding, W., Tan, H. Y., Zhang, J. X., Wilczek, L. A., Hsieh, K. R., Mulkin, J. A., and Bianco, P. R. (2020) The mechanism of Single strand binding protein-RecG binding: Implications for SSB interactome function, Protein Sci 29, 1211-1227.
  7. Bianco, P. R. (2020) DNA Helicase-SSB Interactions Critical to the Regression and Restart of Stalled DNA Replication forks in Escherichia coli, Genes (Basel) 11.
  8. Zhao, T., Liu, Y., Wang, Z., He, R., Xiang Zhang, J., Xu, F., Lei, M., Deci, M. B., Nguyen, J., and Bianco, P. R. (2019) Super-resolution imaging reveals changes in Escherichia coli SSB localization in response to DNA damage, Genes Cells 24, 814-826.
  9. Liu, X., Seet, J. X., Shi, Y., and Bianco, P. R. (2019) Rep and UvrD Antagonize One Another at Stalled Replication Forks and This Is Exacerbated by SSB, ACS Omega 4, 5180-5196.

Microscope development

  1. Zhao, T., Wang, Z., Chen, T., Lei, M., and Bianco, P. R. (2021) Recent Advances in High-Speed Structured Illumination Microscopy, Frontiers in Physics, in press.
  2. Zhao, T., Hao, U., Wang, Z., Liang, Y., Fweng, K., He, C., M., Yun, X., Bianco, P. R., Sun, Y., and Lei, M. (2021) Multi-color structured illumination microscopy for live cell imaging based on the enhanced image recombination transform algorithm., Biomedical Optics Express, in press.
  3. He, M., Liang, Y., Bianco, P. R., Wang, Z., Yun, X., Cai, Y., Feng, K., and Lei, M. (2021) Trapping performance of holographic optical tweezers generated with different hologram algorithms, AIP Advances 11, 035130.
  4. Dan, D., Wang, Z., Zhou, X., Lei, M., Zhao, T., Qian, J., Yu, X., Yan, S., Min, J., Bianco, P.R., Yao, B. (2021) Rapid image reconstruction of structured illumination microscopy directly in the spatial domain, IEEE Photonics Journal 13, 1-11.
  5. Ren, F., Wang, Z., Qian, J., Liang, Y., Dang, S., Cai, Y., Bianco, P. R., Yao, B., and Lei, M. (2019) Multi-view object topography measurement with optical sectioning structured illumination microscopy, Appl Opt 58, 6288-6294.