Cite
Increasing the Thermostable Sugar-1-Phosphate Nucleotidylyltransferase Activities of the Archaeal ST0452 Protein through Site Saturation Mutagenesis of the 97th Amino Acid Position.
MLA
Yuki Honda, et al. “Increasing the Thermostable Sugar-1-Phosphate Nucleotidylyltransferase Activities of the Archaeal ST0452 Protein through Site Saturation Mutagenesis of the 97th Amino Acid Position.” Applied & Environmental Microbiology, vol. 83, no. 3, Feb. 2017, pp. 1–12. EBSCOhost, https://doi.org/10.1128/AEM.02291-16.
APA
Yuki Honda, Qian Zang, Yasuhiro Shimizu, Dadashipour, M., Zilian Zhang, & Yutaka Kawarabayasi. (2017). Increasing the Thermostable Sugar-1-Phosphate Nucleotidylyltransferase Activities of the Archaeal ST0452 Protein through Site Saturation Mutagenesis of the 97th Amino Acid Position. Applied & Environmental Microbiology, 83(3), 1–12. https://doi.org/10.1128/AEM.02291-16
Chicago
Yuki Honda, Qian Zang, Yasuhiro Shimizu, Mohammad Dadashipour, Zilian Zhang, and Yutaka Kawarabayasi. 2017. “Increasing the Thermostable Sugar-1-Phosphate Nucleotidylyltransferase Activities of the Archaeal ST0452 Protein through Site Saturation Mutagenesis of the 97th Amino Acid Position.” Applied & Environmental Microbiology 83 (3): 1–12. doi:10.1128/AEM.02291-16.