Kobyłecki, K., Kuchta, K., Dziembowski, A., Ginalski, K., & Tomecki, R. (2017). Biochemical and structural bioinformatics studies of fungal CutA nucleotidyltransferases explain their unusual specificity toward CTP and increased tendency for cytidine incorporation at the 3′-terminal positions of synthesized tails. RNA.
Citação norma ChicagoKobyłecki, Kamil, Krzysztof Kuchta, Andrzej Dziembowski, Krzysztof Ginalski, and Rafał Tomecki. "Biochemical and Structural Bioinformatics Studies of Fungal CutA Nucleotidyltransferases Explain Their Unusual Specificity Toward CTP and Increased Tendency for Cytidine Incorporation At the 3′-terminal Positions of Synthesized Tails." RNA 2017.
ציטוט MLAKobyłecki, Kamil, et al. "Biochemical and Structural Bioinformatics Studies of Fungal CutA Nucleotidyltransferases Explain Their Unusual Specificity Toward CTP and Increased Tendency for Cytidine Incorporation At the 3′-terminal Positions of Synthesized Tails." RNA 2017.