Ultra-high sensitivity mass spectrometry quantifies single-cell proteome changes upon perturbation.

MLA

Brunner, Andreas-David, et al. “Ultra-High Sensitivity Mass Spectrometry Quantifies Single-Cell Proteome Changes upon Perturbation.” Molecular Systems Biology, vol. 18, no. 3, Mar. 2022, p. e10798. EBSCOhost, https://doi.org/10.15252/msb.202110798.

APA

Brunner, A.-D., Thielert, M., Vasilopoulou, C., Ammar, C., Coscia, F., Mund, A., Hoerning, O. B., Bache, N., Apalategui, A., Lubeck, M., Richter, S., Fischer, D. S., Raether, O., Park, M. A., Meier, F., Theis, F. J., & Mann, M. (2022). Ultra-high sensitivity mass spectrometry quantifies single-cell proteome changes upon perturbation. Molecular Systems Biology, 18(3), e10798. https://doi.org/10.15252/msb.202110798

Chicago

Brunner, Andreas-David, Marvin Thielert, Catherine Vasilopoulou, Constantin Ammar, Fabian Coscia, Andreas Mund, Ole B Hoerning, et al. 2022. “Ultra-High Sensitivity Mass Spectrometry Quantifies Single-Cell Proteome Changes upon Perturbation.” Molecular Systems Biology 18 (3): e10798. doi:10.15252/msb.202110798.