Engelward, B. P., Ge, J., Chow, D. N., Fessler, J. L., Weingeist, D. M., Wood, D. K., . . . Engineering, M. I. o. T. D. o. B. (2016). Micropatterned comet assay enables high throughput and sensitive DNA damage quantification. Oxford University Press.
Chicago Style (17th ed.) CitationEngelward, B. P., Jing Ge, Danielle N. Chow, Jessica L. Fessler, David M. Weingeist, David K. Wood, Bevin P. Engelward, and Massachusetts Institute of Technology. Department of Biological Engineering. Micropatterned Comet Assay Enables High Throughput and Sensitive DNA Damage Quantification. Oxford University Press, 2016.
MLA (9th ed.) CitationEngelward, B. P., et al. Micropatterned Comet Assay Enables High Throughput and Sensitive DNA Damage Quantification. Oxford University Press, 2016.