Brandon L Kier1, Niels H Andersen. 1. Department of Chemistry, University of Washington, Seattle, Washington 98195, USA.
Abstract
Mutational optimization of two long-range interactions first observed in Ac-WINGKWT-NH2, (a) bifurcated H-bonding involving the threonine amide H(N) and side chain OH and the N-terminal acetyl carbonyl and (b) an H-bond between the entgegen-H(N) of the C-terminal amide and the indole ring of Trp6 that stabilizes a face-to-edge indole/indole interaction between Trp1 and Trp6, has afforded < or = 10 residue systems that yield a remarkably stable fold in water. Optimization was achieved by designing a hydrophobic cluster that sequesters these H-bonds from solvent exposure. The structures and extent of amide H/D exchange protection for CH3CH2CO-WI pGXWTGPS (p = D-Pro, X = Leu or Ile) were determined. These two systems are greater than 94% folded at 298 K (97.5% at 280 K) with melting temperatures > 75 degrees C. The fold appears to display minimal fluxionality; a well-converged NMR structure rationalizes all of the large structuring shifts observed, and we suggest that these designed constructs can be viewed as microproteins.
Mutational optimization of two long-range interactions first observed in Ac-WINGKWT-NH2, (a) bifurcated H-bonding involving the n class="Chemical">threonine amide H(N) and side chain OH and the N-terminal acetyl carbonyl and (b) an H-bond between the entgegen-H(N) of the C-terminal amide and the indole ring of Trp6 that stabilizes a face-to-edge indole/indole interaction between Trp1 and Trp6, has afforded < or = 10 residue systems that yield a remarkably stable fold in water. Optimization was achieved by designing a hydrophobic cluster that sequesters these H-bonds from solvent exposure. The structures and extent of amide H/D exchange protection for CH3CH2CO-WI pGXWTGPS (p = D-Pro, X = Leu or Ile) were determined. These two systems are greater than 94% folded at 298 K (97.5% at 280 K) with melting temperatures > 75 degrees C. The fold appears to display minimal fluxionality; a well-converged NMR structure rationalizes all of the large structuring shifts observed, and we suggest that these designed constructs can be viewed as microproteins.
Authors: Niels H Andersen; Katherine A Olsen; R Matthew Fesinmeyer; Xu Tan; F Michael Hudson; Lisa A Eidenschink; Shabnam R Farazi Journal: J Am Chem Soc Date: 2006-05-10 Impact factor: 15.419
Authors: Jordan M Anderson; Brandon L Kier; Brice Jurban; Aimee Byrne; Irene Shu; Lisa A Eidenschink; Alexander A Shcherbakov; Mike Hudson; R M Fesinmeyer; Niels H Andersen Journal: Biopolymers Date: 2016-06 Impact factor: 2.505
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