1988 - Fellow of the Royal Society of Edinburgh
His research investigates the connection between Yield (engineering) and topics such as Metallurgy that intersect with problems in Sodium. His Sodium study frequently links to other fields, such as Metallurgy. His Biochemistry study often links to related topics such as Size-exclusion chromatography. His work blends Gene and Molecular biology studies together. He combines Molecular biology and Gene in his research. John R. Coggins undertakes interdisciplinary study in the fields of Enzyme and Saccharomyces cerevisiae through his research. He integrates many fields, such as Saccharomyces cerevisiae and Escherichia coli, in his works. His Operon research extends to the thematically linked field of Escherichia coli. He frequently studies issues relating to Phylogenetics and Genetics.
John R. Coggins incorporates Biochemistry and Genetics in his research. He performs multidisciplinary study in the fields of Genetics and Gene via his papers. He combines Gene and Protein subunit in his research. His work blends Enzyme and Protein subunit studies together. His work often combines Stereochemistry and Organic chemistry studies. His study deals with a combination of Organic chemistry and Stereochemistry. John R. Coggins frequently studies issues relating to Neurospora crassa and Mutant. In his works, he performs multidisciplinary study on Neurospora crassa and Neurospora. He frequently studies issues relating to Mutant and Neurospora.
His research links Cobble with Habitat. His Ecology study frequently draws parallels with other fields, such as Canopy. Canopy and Ecology are frequently intertwined in his study. His research is interdisciplinary, bridging the disciplines of Aromatic amino acids and Biochemistry. His research combines Biochemistry and Aromatic amino acids. John R. Coggins combines Enzyme and Cofactor in his research. His ATP synthase study frequently intersects with other fields, such as Shikimate pathway. His Genetics study frequently draws connections between adjacent fields such as Metabolic pathway. His study ties his expertise on Composite material together with the subject of Range (aeronautics).
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Evidence for the shikimate pathway in apicomplexan parasites
Fiona Roberts;Fiona Roberts;Craig W. Roberts;Jennifer J. Johnson;Dennis E. Kyle.
Kinetics of 5-enolpyruvylshikimate-3-phosphate synthase inhibition by glyphosate.
Martin R. Boocock;John R. Coggins.
FEBS Letters (1983)
The efficiency of folding of some proteins is increased by controlled rates of translation in vivo: A hypothesis
Ian J. Purvis;Andrew J.E. Bettany;T.Chinnappan Santiago;John R. Coggins.
Journal of Molecular Biology (1987)
The pentafunctional arom enzyme of Saccharomyces cerevisiae is a mosaic of monofunctional domains.
K Duncan;R M Edwards;J R Coggins.
Biochemical Journal (1987)
The shikimate pathway and its branches in apicomplexan parasites.
Craig W. Roberts;Fiona Roberts;Russell E. Lyons;Michael J. Kirisits.
The Journal of Infectious Diseases (2002)
Probing electron transfer in flavocytochrome P-450 BM3 and its component domains.
Andrew W Munro;Simon N Daff;John R Coggins;J Gordon Lindsay.
FEBS Journal (1996)
Plant protein phosphatases. Subcellular distribution, detection of protein phosphatase 2C and identification of protein phosphatase 2A as the major quinate dehydrogenase phosphatase
C MacKintosh;J Coggins;P Cohen.
Biochemical Journal (1991)
Subcellular localization of the common shikimate-pathway enzymes in Pisum sativum L.
David M. Mousdale;John R. Coggins.
The two types of 3-dehydroquinase have distinct structures but catalyze the same overall reaction.
David G. Gourley;David G. Gourley;Annette K. Shrive;Annette K. Shrive;Igor Polikarpov;Tino Krell;Tino Krell.
Nature Structural & Molecular Biology (1999)
Experiences with the shikimate-pathway enzymes as targets for rational drug design.
J.R. Coggins;C. Abell;L.B. Evans;M. Frederickson.
Biochemical Society Transactions (2003)
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