Cite
Light- and Redox-Dependent Force Spectroscopy Reveals that the Interaction between Plastocyanin and Plant Photosystem I Is Favored when One Partner Is Ready for Electron Transfer
MLA
Zamora, Ricardo A., et al. “Light- and Redox-Dependent Force Spectroscopy Reveals That the Interaction between Plastocyanin and Plant Photosystem I Is Favored When One Partner Is Ready for Electron Transfer.” ACS Nano, vol. 16, no. 9, Sept. 2022, pp. 15155–64. EBSCOhost, https://doi.org/10.1021/acsnano.2c06454.
APA
Zamora, R. A., López-Ortiz, M., Sales-Mateo, M., Hu, C., Croce, R., Maniyara, R. A., Pruneri, V., Giannotti, M. I., & Gorostiza, P. (2022). Light- and Redox-Dependent Force Spectroscopy Reveals that the Interaction between Plastocyanin and Plant Photosystem I Is Favored when One Partner Is Ready for Electron Transfer. ACS Nano, 16(9), 15155–15164. https://doi.org/10.1021/acsnano.2c06454
Chicago
Zamora, Ricardo A., Manuel López-Ortiz, Montserrat Sales-Mateo, Chen Hu, Roberta Croce, Rinu Abraham Maniyara, Valerio Pruneri, Marina I. Giannotti, and Pau Gorostiza. 2022. “Light- and Redox-Dependent Force Spectroscopy Reveals That the Interaction between Plastocyanin and Plant Photosystem I Is Favored When One Partner Is Ready for Electron Transfer.” ACS Nano 16 (9): 15155–64. doi:10.1021/acsnano.2c06454.