Chan Man Lok Andrew
Professor
School of Biomedical Sciences
The Chinese University of Hong Kong
Hong Kong
Biography
Dr. CHAN Man Lok Andrew is affiliated to School of Biomedical Sciences, CUHK . Dr. CHAN Man Lok Andrew is currently providing services as Professor. Dr. CHAN Man Lok Andrew has authored and co-authored multiple peer-reviewed scientific papers and presented works at many national and International conferences. Dr. CHAN Man Lok Andrew contributions have acclaimed recognition from honourable subject experts around the world. Dr. CHAN Man Lok Andrew is actively associated with different societies and academies. Dr. CHAN Man Lok Andrew academic career is decorated with several reputed awards and funding. Dr. CHAN Man Lok Andrew research interests include Cancer cell signaling - Ras-related oncogenes and PTEN tumor suppressor,Tumor microenvironment,Ras-related GTPase in anti-tumor immunity,Mouse model of human cancer.
Research Interest
Cancer cell signaling - Ras-related oncogenes and PTEN tumor suppressor,Tumor microenvironment,Ras-related GTPase in anti-tumor immunity,Mouse model of human cancer.
Publications
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Yan, X., Yan, M.F., Guo, Y.H., Singh, G., Chen, Y.H., Yu, M., Wang, D.M., Hillery, C.A. & Chan, A.M. (2015). R-Ras regulates murine T cell migration and Intercellular Adhesion Molecule-1 binding. PLoS ONE, 10, e0145218.
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Knafo, S., Sanchez-Puelles, C., Palomer, E., Delgado, I., Draffin, J.E., Mingo, J., Wahle, T., Kaleka, K., Mou, L., Pereda-Perez, I., Klosi, E., Faber, E.B., Chapman, H.M., Lozano-Montes, L., Ortega-Molina, A., Ordonez-Guiterrez, L., Wandosell, F., Vina, J., Dotti, C.G., Hall, R.A., Pulido, R., Gerges, N.Z., Chan, A.M., Spaller, M.R., Serrano, M., Venero, C. & Esteban, J.A. (2016). PTEN recruitment controls synaptic and cognitive function in Alzheimer’s models. Nature Neuroscience, 19, 443-453.
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Ni, J., Bao, S., Johnson, R.I., Zhu, B, Li, J., Vadaparampil, J., Smith C.M., Cambell, K.N., Grahammer, F., Huber, T.B., He, J.C., D'Agati, V.D., Chan, A.M. & Kaufman, L. (2016). MAGI-1 interacts with nephrin to maintain slit diaphragm structure through enhanced Rap1 activation in podocytes. J. Biol. Chem., In press.
