Collaborations at Wake Forest University

Bierbach Lab

Yao, X., Watkins, N. H., Brown-Harding, H., & Bierbach, U. (2020). A membrane transporter determines the spectrum of activity of a potent platinum–acridine hybrid anticancer agent. Scientific reports, 10(1), 1-11.

Yao, X., Tracy, C.M., Bierbach, U. (2019). Cysteine-Directed Bioconjugation of a Platinum(II)–Acridine Anticancer Agent Inorg. Chem. 58, 1, 43–46 

 

Gallagher Lab:

Collard, M., Austin, N. N., Brown-Harding, H., Westwood, B., Tallant, E. A., & Gallagher, P. E. (2021). Polyphenol-Rich Muscadine Grape Extract Reduces Triple Negative Breast Cancer Metastasis in Mice with Changes in the Gut Microbiome.

 

Ghadiri Lab:

Shafiee, A., Ghadiri, E., Kassis, J., Williams, D., & Atala, A. (2020). Energy band gap investigation of biomaterials: A comprehensive material approach for biocompatibility of medical electronic devices. Micromachines11(1), 105.

 

Furdui Lab:

Holmila, R., Wu, H., Lee, J., Tsang, A. W., Singh, R., & Furdui, C. M. (2021). Integrated redox proteomic analysis highlights new mechanisms of sensitivity to silver nanoparticles. Molecular & Cellular Proteomics, 20.

 

Lukesh Lab:

Hu, W., Yammani, R.D., Brown-Harding, H., Soto-Pantoja, D., Poole, L.B., Lukesh, J.C. (2022) Mitigation of Doxorubicin-Induced Cardiotoxicity with an H2O2-Activated, H2S-Donating Hybrid Prodrug . In revision at Redox Biology

Suarez, S. I., Warner, C. C., Brown-Harding, H., Thooft, A. M., VanVeller, B., & Lukesh, J. C. (2020). Highly selective staining and quantification of intracellular lipid droplets with a compact push–pull fluorophore based on benzothiadiazole. Organic & Biomolecular Chemistry, 18(3), 495-499.

Hankins, R., Suarez, S.I., Kalk, M., Green, N., Harty, M., Lukesh, J. (2020): An Innovative Hydrogen Peroxide- Sensing Scaffold and Insights Towards its Potential as an ROS-Activated Persulfide Donor.

Suarez, S. I., Warner, C. C., Brown-Harding, H., VanVeller, B., & Lukesh, J. (2019). Selective Staining and Quantification of Intracellular Lipid Droplets with CBD-Fluor, a New and Versatile Push-Pull Fluorophore.

Suarez, S. I., Ambrose, R., Kalk, M. A., & Lukesh III, J. C. (2019). Selenosulfides Tethered to gem‐Dimethyl Esters: A Robust and Highly Versatile Framework for H2S Probe Development. Chemistry–A European Journal, 25(69), 15736-15740.

 

Muday Lab:

Postiglione, A. E.,  Lee, D., Brown-Harding, Muday, G. K. (in preparation) LipReader: Guard Cell Automated Imaging

Postliglione, A. E., & Muday, G. K. (2022). Abscisic Acid Increases Hydrogen Peroxide in Multiple Subcellular Compartments to Drive Stomatal Closure. bioRxiv.

Martin, R. E., Marzol, E., Estevez, J. M., & Muday, G. K. (2021). Ethylene signaling increases reactive oxygen species accumulation to drive root hair initiation in Arabidopsis thaliana. bioRxiv.

Gibson, C. L., Isley, J. W., Falbel, T. G., Mattox, C. T., Lewis, D. R., Metcalf, K. E., & Muday, G. K. (2020). A conditional mutation in SCD1 reveals linkage between PIN protein trafficking, auxin transport, gravitropism, and lateral root initiation. Frontiers in plant science, 910

Chapman, J.M., Muday, G.K. (2020) Flavonols modulate lateral root emergence by scavenging reactive oxygen species in Arabidopsis thaliana. bioRxiv

Muday, G. K. & Brown-Harding, H. Nervous system-like signaling in plant defense. Science 361, 1068–1069 (2018).

Muhlemann, J.K., Younts, T.L.B, Muday, G.K. (2018) Flavonols control pollen tube growth and integrity by regulating ROS homeostasis during high-temperature stress. PNAS, 115 (47) E11188-E11197

Watkins, J.M., Chapman, J.M., Muday, G.K. (2017) Abscisic Acid-Induced Reactive Oxygen Species Are Modulated by Flavonols to Control Stomata Aperture. Plant Physio 175 (4) 1807-1825

 

Tsang Lab: 

Dushime, R., Zhu, Y., Wu, H., Saez, D., Shukla, K., Brown-Harding, H., … & Tsang, A. W. (2020). Discovery of Spilanthol Endoperoxide as a Redox Natural Compound Active against Mammalian Prx3 and Chlamydia trachomatis Infection. Antioxidants, 9(12), 1220.

Saez, D., Dushime, R., Wu, H., Ramos Cordova, L. B., Shukla, K., Brown‐Harding, H., … & Tsang, A. W. (2019). Sulforaphane promotes chlamydial infection by suppressing mitochondrial protein oxidation and activation of complement C3. Protein Science, 28(1), 216-227.

 

Zhang-Reid Lab

Marayati, B.F., Tucker, J.F., Huckabee, R.H, Anderson, A.M., Pease, J.B., Zeyl, C.W., and Zhang, K. (2018). Loss of Elongation-Like Factor 1 Spontaneously Induces Diverse, RNase H-Related Suppressor Mutations in Schizosaccharomyces pombe. Genetics 209, 4

Marayati, B.F., Tucker, J. F., De La Cerda, D.A. et al. (2020) The Catalytic-Dependent and -Independent Roles of Lsd1 and Lsd2 Lysine Demethylases in Heterochromatin Formation in Schizosaccharomyces pombe. Cells 9(4), 95

 

Graduate Work

Brown, H. M. et al. Multinucleation during C. trachomatis infections is caused by the contribution of two effector pathways. PLoS ONE 9, e100763 (2014).

Knowlton, A. E., Fowler, L. J., Patel, R. K., Wallet, S. M., & Grieshaber, S. S. (2013). Chlamydia induces anchorage independence in 3T3 cells and detrimental cytological defects in an infection model. PLOS one, 8(1), e54022.

Jahn, S. C., Corsino, P. E., Davis, B. J., Law, M. E., Nørgaard, P., & Law, B. K. (2013). Constitutive Cdk2 activity promotes aneuploidy while altering the spindle assembly and tetraploidy checkpoints. Journal of cell science, 126(5), 1207-1217.

Brown, H. M., Knowlton, A. E. & Grieshaber, S. S. Chlamydial infection induces host cytokinesis failure at abscission. Cell. Microbiol. 14, 1554–1567 (2012).

Knowlton, A. E., Brown, H. M., Richards, T. S., Andreolas, L. A., Patel, R. K., & Grieshaber, S. S. (2011). Chlamydia trachomatis infection causes mitotic spindle pole defects independently from its effects on centrosome amplification. Traffic, 12(7), 854-866.

Undergraduate Work

Bouchard, C., Michaels, J. & Brown-Harding, H. RNA isolation from corals and other cnidarian species using urea-LiCl as a denaturant, Analytical Biochemistry, 588 (2020)