In this paper we investigate the inverse protein folding (IPF) problem under the Canonical model on 3D and 2D lattices [W.E. Hart, On the computational ...
Nov 4, 2005 · The Inverse Protein Folding Problem on 2D and 3D Lattices. ∗. Piotr Berman†. Department of Computer Science & Engineering. Pennsylvania State ...
In this paper we investigate the inverse protein folding (IPF) problem under the Canonical model on 3D and 2D lattices [W.E. Hart, On the computational ...
In this paper we investigate the inverse protein folding (IPF) problem under the Canonical model on 3D and 2D lattices [W.E. Hart, On the computational ...
The inverse protein folding problem is that of designing an amino acid sequence which has a particular native protein fold. This problem arises in drug ...
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The inverse protein folding problem on 2D and 3D lattices. Berman, P.; DasGupta, B.; Mubayi, D.; Sloan, R.; Turán, G.; Zhang, Y. Discrete Applied Mathematics ...
Inverse protein folding problem: designing polymer sequences. - NCBI
www.ncbi.nlm.nih.gov › PMC525653
We focus here on designing the hydrophobicity. For a model of self-avoiding hydrophobic/polar chains on two-dimensional square lattices, geometric proofs and ...
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exhaustive enumerations [for chain lengths (L) 12-17 on 2D square lattices and 12 and 13 on 3D simple cubic lattices] shows that the rules are generally ...
Inverse protein folding or protein design stands for searching a particular amino acids sequence whose native structure or folding matches a pre specified ...
In this paper we investigate the inverse protein folding (IPF) problem under the Canonical model on 3D and 2D lattices [W.E. Hart, On the computational ...