S. Mohammadi Et Al. , "Epistatic effects between amino acid insertions and substitutions mediate toxin-resistance of vertebrate Na+, K+-ATPases," MOLECULAR BIOLOGY AND EVOLUTION , vol.1, no.1, pp.100-102, 2022
Mohammadi, S. Et Al. 2022. Epistatic effects between amino acid insertions and substitutions mediate toxin-resistance of vertebrate Na+, K+-ATPases. MOLECULAR BIOLOGY AND EVOLUTION , vol.1, no.1 , 100-102.
Mohammadi, S., Özdemir, H. I., Özbek Sarica, P., Sumbul, F., Stiller, J., Deng, Y., ... Crawford, A. J.(2022). Epistatic effects between amino acid insertions and substitutions mediate toxin-resistance of vertebrate Na+, K+-ATPases. MOLECULAR BIOLOGY AND EVOLUTION , vol.1, no.1, 100-102.
Mohammadi, Shabnam Et Al. "Epistatic effects between amino acid insertions and substitutions mediate toxin-resistance of vertebrate Na+, K+-ATPases," MOLECULAR BIOLOGY AND EVOLUTION , vol.1, no.1, 100-102, 2022
Mohammadi, Shabnam Et Al. "Epistatic effects between amino acid insertions and substitutions mediate toxin-resistance of vertebrate Na+, K+-ATPases." MOLECULAR BIOLOGY AND EVOLUTION , vol.1, no.1, pp.100-102, 2022
Mohammadi, S. Et Al. (2022) . "Epistatic effects between amino acid insertions and substitutions mediate toxin-resistance of vertebrate Na+, K+-ATPases." MOLECULAR BIOLOGY AND EVOLUTION , vol.1, no.1, pp.100-102.
@article{article, author={Shabnam Mohammadi Et Al. }, title={Epistatic effects between amino acid insertions and substitutions mediate toxin-resistance of vertebrate Na+, K+-ATPases}, journal={MOLECULAR BIOLOGY AND EVOLUTION}, year=2022, pages={100-102} }