Mayer, K., Mundigl, O., Kettenberger, H., Birzele, F., Stahl, S., Pastan, I., & Brinkmann, U. (2018). Diphthamide affects selenoprotein expression: Diphthamide deficiency reduces selenocysteine incorporation, decreases selenite sensitivity and pre-disposes to oxidative stress. Redox Biol.

Mayer, Klaus, Olaf Mundigl, Hubert Kettenberger, Fabian Birzele, Sebastian Stahl, Ira Pastan, و Ulrich Brinkmann. "Diphthamide Affects Selenoprotein Expression: Diphthamide Deficiency Reduces Selenocysteine Incorporation, Decreases Selenite Sensitivity and Pre-disposes to Oxidative Stress." Redox Biol 2018.

Mayer, Klaus, et al. "Diphthamide Affects Selenoprotein Expression: Diphthamide Deficiency Reduces Selenocysteine Incorporation, Decreases Selenite Sensitivity and Pre-disposes to Oxidative Stress." Redox Biol 2018.