Thomas, S.N.; Liao, Z.; Clark, D.; Chen, Y.; Samadani, R.; Mao, L.; Ann, D.K.; Baulch, J.E.; Shapiro, P.; Yang, A.J.
Exosomal Proteome Profiling: A Potential Multi-Marker Cellular Phenotyping Tool to Characterize Hypoxia-Induced Radiation Resistance in Breast Cancer. Proteomes 2013, 1, 87-108.
https://doi.org/10.3390/proteomes1020087
AMA Style
Thomas SN, Liao Z, Clark D, Chen Y, Samadani R, Mao L, Ann DK, Baulch JE, Shapiro P, Yang AJ.
Exosomal Proteome Profiling: A Potential Multi-Marker Cellular Phenotyping Tool to Characterize Hypoxia-Induced Radiation Resistance in Breast Cancer. Proteomes. 2013; 1(2):87-108.
https://doi.org/10.3390/proteomes1020087
Chicago/Turabian Style
Thomas, Stefani N., Zhongping Liao, David Clark, Yangyi Chen, Ramin Samadani, Li Mao, David K. Ann, Janet E. Baulch, Paul Shapiro, and Austin J. Yang.
2013. "Exosomal Proteome Profiling: A Potential Multi-Marker Cellular Phenotyping Tool to Characterize Hypoxia-Induced Radiation Resistance in Breast Cancer" Proteomes 1, no. 2: 87-108.
https://doi.org/10.3390/proteomes1020087
APA Style
Thomas, S. N., Liao, Z., Clark, D., Chen, Y., Samadani, R., Mao, L., Ann, D. K., Baulch, J. E., Shapiro, P., & Yang, A. J.
(2013). Exosomal Proteome Profiling: A Potential Multi-Marker Cellular Phenotyping Tool to Characterize Hypoxia-Induced Radiation Resistance in Breast Cancer. Proteomes, 1(2), 87-108.
https://doi.org/10.3390/proteomes1020087
