Person
Crawford, Bryan D.
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Biography and Research Interest
My primary research foci are on cell-ECM interactions, their regulation, and how these give rise to macroscopic structure during embryonic development. In particular, I am investigating the roles of the matrix metalloproteinases and their regulators in the context of zebrafish embryogenesis.
Non-Zebrafish Publications
Colpitts, C., Ektesabi, A.M., Wyatt, R.A., Crawford, B.D. and Kiani, A. (2017) “Mammalian fibroblast cells avoid residual stress zone caused by nanosecond laser pulses.” Journal of the Mechanical Behavior of Biomedical Materials. doi:10.1016/j.jmbbm.2017.06.005
Radmanesh, M., Ektesabi, A.M., Wyatt, R.A., Crawford, B.D. and Kiani A. “Mouse Embryonic Fibroblasts Accumulate Differentially on Titanium Surfaces Treated with Nanosecond Laser Pulses.” BiointerPhases, 11(3) doi:10.1116/1.4962066
Colpitts, C., Ektesabi, A.M., Wyatt, R.A., Crawford, B.D., and Kiani, A. (2016) “Mammalian fibroblast cells show strong preference for laser-generated hybrid amorphous silicon-SiO2 textures.” Journal of Applied Biomaterials & Functional Materials, doi:10.5301/jabfm.5000327
Ali, M.A.M, Chow, A.K., Kandasamy, A.D., West, L.J., Crawford, B.D., and Schulz, R. (2012). Mechanisms of cytosolic targeting of matrix metalloproteinase-2. Journal of Cellular Physiology. 227:3397–404.
Allain, R., Moriyasu, M., Crawford, B.D., and Courtenay, S. (2011). Lipofuscin quantification as a potential tool for age estimation in snow crabs, Chionoecetes opilio (O. Fabricius, 1788) (Decapoda, Oregoniidae) Crustaceana. 84:1441-63.
Allain, R., Moriyasu, M., Crawford, B.D., and Courtenay, S. (2011) Technical development and calibration of lipofuscin quantification for the potential use as an age estimate in snow crabs Chionoecetes opilio (Decapoda: Oregoniidae). Cahiers de Biologie Marine 53:203-215.
Viappiani, S., Nicolescu, A., Holt, A., Sawicki, G., Crawford, B.D., León, H., van Mulligen, T., and Schulz, R. (2009). Activation and modulation of 72kDa matrix metalloproteinase-2 by peroxynitrite and glutathione. Biochemical Pharmacology 77:826–834.
Sariahmetoglu, M., Crawford, B.D., Leon, H., Sawicka, J., Li, L., Ballermann, B.J., Holmes, C., Berthiaume, L.G., Holt, A., Sawicki, G., and Schulz, R. (2007). Matrix metalloprotease-2 is regulated by phosphorylation. FASEB J 21:2486-95.
Chow, A.K., Cena, J., El-Yazbi, A.F., Crawford, B.D., Holt, A., Cho, W.J., Daniel, E.E., and Schulz, R. (2007). Caveolin-1 inhibits matrix metalloproteinase-2 activity in the heart. Journal of Molecular and Cellular Cardiology 42:896-901.
Northwood, I. C., Tong, A. Y. H., Crawford, B. D., Drobnies, A. E. and Cornell, R. B. (1999) Shuttling of cytidylytransferase between the nucleus and ER accompanies the wave of PC synthesis upon reentry of quiescent cells into the cell division cycle. Journal of Biological Chemistry 274:26240-8
Crawford, B. D. and Burke, R. D. (1994) YIGSR domain of laminin binds surface receptors of mesenchyme and stimulates migration during gastrulation in sea urchins. Development 120:3227-3234
Thorndyke, M. C., Crawford, B. D. and Burke, R. D. (1992) Localization of a SALMFamide Neuropeptide in the Larval Nervous System of the Sand Dollar Dendraster excentricus. Acta Zoologica 73(4):207-212