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Rameshwar, P. (2012). Would cancer stem cells affect the future investment in stem cell therapy.World J Exp Med2, 26-29.
Zhang, B., Krawetz, R., and Rancourt, D.E. (2013). Would the real human embryonic stem cell please stand up?.Bioessays.
Fu, X. (2014). Wound Care Study and Translation Application: A Team's Work in China.Int J Low Extrem Wounds.
Rodrigues, M., Kosaric, N., Bonham, C.A., and Gurtner, G.C. (2019). Wound Healing: A Cellular Perspective.Physiol Rev99, 665-706.
Zielins, E.R., Atashroo, D.A., Maan, Z.N., Duscher, D., Walmsley, G.G., Hu, M., Senarath-Yapa, K., McArdle, A., Tevlin, R., Wearda, T., et al. (2014). Wound healing: an update.Regen Med9, 817-830.
Yoshida, S., Yoshimoto, H., Hirano, A., and Akita, S. (2016). Wound Healing and Angiogenesis through Combined Use of a Vascularized Tissue Flap and Adipose-Derived Stem Cells in a Rat Hindlimb Irradiated Ischemia Model.Plast Reconstr Surg137, 1486-1497.
Jones, R.Ellen, Foster, D.S., Hu, M.S., and Longaker, M.T. (2019). Wound healing and fibrosis: current stem cell therapies.Transfusion59, 884-892.
Kober, J., Gugerell, A., Schmid, M., Zeyda, M., Buchberger, E., Nickl, S., Hacker, S., Ankersmit, H.Jan, and Keck, M. (2014). Wound Healing Effect of Conditioned Media Obtained From Adipose Tissue on Human Skin Cells: A Comparative in Vitro Study.Ann Plast Surg.
Sculean, A., Chapple, I.L.C., and Giannobile, W.V. (2015). Wound models for periodontal and bone regeneration: the role of biologic research.Periodontol 200068, 7-20.
Shaw, T.J., and Martin, P. (2016). Wound repair: a showcase for cell plasticity and migration.Curr Opin Cell Biol42, 29-37.
Lee, Y.J., Baek, S.E., Lee, S., Cho, Y.W., Jeong, Y.J., Kim, K.J., Jun, Y.J., and Rhie, J.W. (2018). Wound-healing effect of adipose stem cell-derived extracellular matrix sheet on full-thickness skin defect rat model: Histological and immunohistochemical study.Int Wound J.
Losick, V.P., Jun, A.S., and Spradling, A.C. (2016). Wound-Induced Polyploidization: Regulation by Hippo and JNK Signaling and Conservation in Mammals.Plos One11, e0151251.
Forzani, C., Aichinger, E., Sornay, E., Willemsen, V., Laux, T., Dewitte, W., and Murray, J.A.H. (2014). WOX5 Suppresses CYCLIN D Activity to Establish Quiescence at the Center of the Root Stem Cell Niche.Curr Biol.
Belin, D., and Karadottir, R.Thora (2016). Writing a constructive peer-review: a young PI perspective.Eur J Neurosci.
van de Put, M.W.P., Carcouët, C.C.M.C., Bomans, P.H.H., Friedrich, H., de Jonge, N., and Sommerdijk, N.A.J.M. (2014). Writing Silica Structures in Liquid with Scanning Transmission Electron Microscopy.Small.
Cocas, L., and Pleasure, S.J. (2014). Wrong place, wrong time: ectopic progenitors cause cortical heterotopias.Nat Neurosci17, 894-895.
Di Grazia, C., Pozzi, S., Geroldi, S., Grasso, R., Miglino, M., Colombo, N., Tedone, E., Luchetti, S., Lamparelli, T., Gualandi, F., et al. (2016). WT-1 Expression and Pre-Emptive Immunotherapy in Patients with Acute Myeloid Leukemia Undergoing an Allogeneic Hemopoietic Stem Cell Transplant.Biol Blood Marrow Transplant.
Cottin, L., Riou, J., Boyer, F., Bouvier, A., Zannetti, A., Blouet, A., Truchan-Graczyk, M., Jouanneau-Courville, R., Beucher, A., Ribourtout, B., et al. (2018). WT1 gene is overexpressed in myeloproliferative neoplasms, especially in myelofibrosis.Blood Cells Mol Dis75, 35-40.
Cho, B.-S., Min, G.-J., Park, S.-S., Shin, S.-H., Yahng, S.-A., Jeon, Y.-W., Yoon, J.-H., Lee, S.-E., Eom, K.-S., Kim, Y.-J., et al. (2019). WT1 measurable residual disease assay in AML who underwent allogeneic hematopoietic stem cell transplantation; optimal time points, threshold, and candidates.Biol Blood Marrow Transplant.
Lee, C., and Clark, S.E. (2015). A WUSCHEL-Independent Stem Cell Specification Pathway Is Repressed by PHB, PHV and CNA in Arabidopsis.Plos One10, e0126006.
Gish, L.A., Gagne, J.M., Han, L., Deyoung, B.J., and Clark, S.E. (2013). WUSCHEL-Responsive At5g65480 Interacts with CLAVATA Components In Vitro and in Transient Expression.Plos One8, e66345.
Chen, Y.-A., Lu, C.-Y., Cheng, T.-Y., Pan, S.-H., Chen, H.-F., and Chang, N.-S. (2019). WW Domain-Containing Proteins YAP and TAZ in the Hippo Pathway as Key Regulators in Stemness Maintenance, Tissue Homeostasis, and Tumorigenesis.Front Oncol9, 60.
Hussain, T., Kil, H., Hattiangady, B., Lee, J., Kodali, M., Shuai, B., Attaluri, S., Takata, Y., Shen, J., Abba, M., et al. (2018). Wwox deletion leads to reduced GABA-ergic inhibitory interneuron numbers and activation of microglia and astrocytes in mouse hippocampus.Neurobiol Dis.