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Roger E. Koeppe, II

Chemistry and Biochemistry University of Arkansas, Little Rock, AR 
Protein Engineering and Protein/Lipid Interactions
"Roger Koeppe"

Mean distance: 8.3


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Robert M. Stroud grad student 1971-1976 Caltech
 (Catalysis by trypsin)
Lubert Stryer post-doc 1976-1979 Stanford
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Pal S, Koeppe RE, Chattopadhyay A. (2021) Membrane electrostatics sensed by tryptophan anchors in hydrophobic model peptides depends on non-aromatic interfacial amino acids: implications in hydrophobic mismatch. Faraday Discussions
Price JR, Afrose F, Greathouse DV, et al. (2021) Illuminating Disorder Induced by Glu in a Stable Arg-Anchored Transmembrane Helix. Acs Omega. 6: 20611-20618
McKay MJ, Marr KA, Price JR, et al. (2021) Lipid-Dependent Titration of Glutamic Acid at a Bilayer Membrane Interface. Acs Omega. 6: 8488-8494
Afrose F, Martfeld AN, Greathouse DV, et al. (2020) Examination of pH dependency and orientation differences of membrane spanning alpha helices carrying a single or pair of buried histidine residues. Biochimica Et Biophysica Acta. Biomembranes. 1863: 183501
McKay MJ, Greathouse DV, Koeppe RE. (2020) Flanking aromatic residue competition influences transmembrane peptide helix dynamics. Febs Letters
Afrose F, Koeppe Ii RE. (2020) Comparing Interfacial Trp, Interfacial His and pH Dependence for the Anchoring of Tilted Transmembrane Helical Peptides. Biomolecules. 10
Sustich SJ, Afrose F, Greathouse DV, et al. (2020) Influence of interfacial tryptophan residues on an arginine-flanked transmembrane helix. Biochimica Et Biophysica Acta. Biomembranes. 1862: 183134
McKay MJ, Fu R, Greathouse DV, et al. (2019) Breaking the Backbone: Central Arginine Residues Induce Membrane Exit and Helix Distortions Within a Dynamic Membrane Peptide. The Journal of Physical Chemistry. B
Greathouse D, Lipinski K, McKay MJ, et al. (2019) Influence of Lipid Saturation, Hydrophobic Length and Cholesterol on Double-Arginine-Containing Helical Peptides in Bilayer Membranes. Chembiochem : a European Journal of Chemical Biology
Kapoor R, Peyear TA, Koeppe RE, et al. (2019) Antidepressants are modifiers of lipid bilayer properties. The Journal of General Physiology. 151: 342-356
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