↑ (Jimenez et al., Enzymatic and nonenzymatic translocation of yeast polysomes. Site of action of a number of inhibitors. Biochemistry, 1977 16;4727-4730)
↑ Gupta, R.S. and Siminovitch. L. (1977). The molecular basis of emetine resistance in Chinese hamster ovary cells: Alteration in the 40S ribosomal subunit. Cell 10: 61-66.
↑ Rhoads, D. D. and Roufa, D. J. (1985) Emetine resistance of Chinese hamster cells: structures of wild-type and mutant ribosomal protein S14 mRNAs Mol. Cell. Biol. 5:1655-1659.
↑ Gupta, R.S. and Siminovitch, L. (1977). Mutants of CHO cells resistant to the protein synthesis inhibitors, cryptopleurine and tylocrebrine: Genetic and structural evidence for common site of action of emetine, cryptopleurine, tylocrebrine and tubulosine. Biochemistry 16: 3209-3214.
↑ Gupta, R.S., Krepinsky, G.H. and Siminovitch, L. (1980). Structural determinants responsible for the biological activity of emetine, cryptopleurine and tylocrebrine: Structure-activity relationship among related compounds. Mol. Pharmacol. 18: 136-143.
↑ Cheong, BE; Takemura, T; Yoshimatsu, K; Sato, F (2011). “Molecular cloning of an O-methyltransferase from adventitious roots of Carapichea ipecacuanha”. Bioscience, Biotechnology, and Biochemistry. 75 (1): 107–13. doi:10.1271/bbb.100605. PMID21228475.
