2023 - Research.com Biology and Biochemistry in Canada Leader Award
2023 - Research.com Chemistry in Canada Leader Award
His research investigates the link between Aerospace engineering and topics such as Telemetry that cross with problems in Telecommunications. His work often combines Telecommunications and Telemetry studies. Many of his studies on Ecology apply to Temperate climate as well. Michael N.G. James integrates Foraging and Habitat in his studies. While working in this field, Michael N.G. James studies both Habitat and Foraging. While working on this project, Michael N.G. James studies both Fishery and Oceanography. He connects Oceanography with Fishery in his research. Michael N.G. James frequently studies issues relating to Sea turtle and Turtle (robot). Sea turtle is closely attributed to Turtle (robot) in his research.
His Quantum mechanics study spans across into fields like Physical chemistry and Electron. Michael N.G. James integrates many fields in his works, including Physical chemistry and Quantum mechanics. He conducts interdisciplinary study in the fields of Fishery and Fishing through his research. His study brings together the fields of Temperate climate and Ecology. His work on Sea turtle expands to the thematically related Turtle (robot). His Sea turtle study frequently links to adjacent areas such as Turtle (robot). He combines Foraging and Predation in his research. He undertakes interdisciplinary study in the fields of Predation and Foraging through his research. He merges Oceanography with Fishery in his study.
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Structure of the calcium regulatory muscle protein troponin-C at 2.8 Å resolution
Osnat Herzberg;Michael N. G. James.
Molecular structure of the acyl-enzyme intermediate in β-lactam hydrolysis at 1.7 Å resolution
Natalie C. J. Strynadka;Hiroyuki Adachi;Susan E. Jensen;Kathy Johns.
Structure and refinement of penicillopepsin at 1.8 A resolution.
Michael N.G. James;Anita R. Sielecki.
Journal of Molecular Biology (1983)
Structural evidence for gene duplication in the evolution of the acid proteases.
J. Tang;M. N. G. James;I. N. Hsu;J. A. Jenkins.
Structural comparison of two serine proteinase-protein inhibitor complexes: eglin-c-subtilisin Carlsberg and CI-2-subtilisin Novo.
Catherine A. McPhalen;Michael N. G. James.
Picornaviral 3C cysteine proteinases have a fold similar to chymotrypsin-like serine proteinases
Marc Allaire;Maia M. Chernaia;Bruce A. Malcolm;Michael N. G. James.
Refined crystal structure of troponin C from turkey skeletal muscle at 2·0 Å resolution
Osnat Herzberg;Michael N.G. James.
Journal of Molecular Biology (1988)
Molecular structure of an aspartic proteinase zymogen, porcine pepsinogen, at 1.8 Å resolution
Michael N. G. James;Anita R. Sielecki.
Crystal structure of the holotoxin from Shigella dysenteriae at 2.5 A resolution.
Marie E. Fraser;Maia M. Chernaia;Yuri V. Kozlov;Michael N.G. James.
Nature Structural & Molecular Biology (1994)
Structure of shiga toxin type 2 (Stx2) from escherichia coli O157:H7
Marie E. Fraser;Masao Fujinaga;Maia M. Cherney;Angela R. Melton-Celsa.
Journal of Biological Chemistry (2004)
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