Cite
ChemInform Abstract: Hydrophobic Vitamin B12. Part 6. Carbon-Skeleton Rearrangement via Formation of Host-Guest Complexes Derived from an 'Octopus' Azaparacyclophane and Hydrophobic Vitamin B12 Derivatives: A Novel Holoenzyme Model System.
MLA
Murakami, Y., et al. “ChemInform Abstract: Hydrophobic Vitamin B12. Part 6. Carbon-Skeleton Rearrangement via Formation of Host-Guest Complexes Derived from an ‘Octopus’ Azaparacyclophane and Hydrophobic Vitamin B12 Derivatives: A Novel Holoenzyme Model System.” ChemInform, vol. 19, no. 43, Oct. 1988, p. no. EBSCOhost, https://doi.org/10.1002/chin.198843360.
APA
Murakami, Y., Hisaeda, Y., Kikuchi, J., Ohno, T., Suzuki, M., Matsuda, Y., & Matsuura, T. (1988). ChemInform Abstract: Hydrophobic Vitamin B12. Part 6. Carbon-Skeleton Rearrangement via Formation of Host-Guest Complexes Derived from an “Octopus” Azaparacyclophane and Hydrophobic Vitamin B12 Derivatives: A Novel Holoenzyme Model System. ChemInform, 19(43), no. https://doi.org/10.1002/chin.198843360
Chicago
Murakami, Y., Y. Hisaeda, J. Kikuchi, T. Ohno, M. Suzuki, Y. Matsuda, and T. Matsuura. 1988. “ChemInform Abstract: Hydrophobic Vitamin B12. Part 6. Carbon-Skeleton Rearrangement via Formation of Host-Guest Complexes Derived from an ‘Octopus’ Azaparacyclophane and Hydrophobic Vitamin B12 Derivatives: A Novel Holoenzyme Model System.” ChemInform 19 (43): no. doi:10.1002/chin.198843360.