Spiral search: a hydrophobic-core directed local search for simplified PSP on 3D FCC lattice

Spiral search: a hydrophobic-core directed local search for simplified PSP on 3D FCC lattice

<p>Abstract</p> <p>Background</p> <p>Protein structure prediction is an important but unsolved problem in biological science. Predicted structures vary much with energy functions and structure-mapping spaces. In our simplified <it>ab initio </it>protein stru...

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Main Authors: Rashid Mahmood A, Newton MA Hakim, Hoque Md Tamjidul, Shatabda Swakkhar, Pham Duc, Sattar Abdul
Format: Article
Language:English
Published: BMC 2013-01-01
Series:BMC Bioinformatics
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spelling doaj-4b7d950601594d25b1d410cee4a4b0a22020-11-24T21:58:56ZengBMCBMC Bioinformatics1471-21052013-01-0114Suppl 2S1610.1186/1471-2105-14-S2-S16Spiral search: a hydrophobic-core directed local search for simplified PSP on 3D FCC latticeRashid Mahmood ANewton MA HakimHoque Md TamjidulShatabda SwakkharPham DucSattar Abdul<p>Abstract</p> <p>Background</p> <p>Protein structure prediction is an important but unsolved problem in biological science. Predicted structures vary much with energy functions and structure-mapping spaces. In our simplified <it>ab initio </it>protein structure prediction methods, we use hydrophobic-polar (HP) energy model for structure evaluation, and 3-dimensional face-centred-cubic lattice for structure mapping. For HP energy model, developing a compact hydrophobic-core (H-core) is essential for the progress of the search. The H-core helps find a stable structure with the lowest possible free energy.</p> <p>Results</p> <p>In order to build H-cores, we present a new Spiral Search algorithm based on tabu-guided local search. Our algorithm uses a novel H-core directed guidance heuristic that squeezes the structure around a dynamic hydrophobic-core centre. We applied random walks to break premature H-cores and thus to avoid early convergence. We also used a novel relay-restart technique to handle stagnation.</p> <p>Conclusions</p> <p>We have tested our algorithms on a set of benchmark protein sequences. The experimental results show that our spiral search algorithm outperforms the state-of-the-art local search algorithms for simplified protein structure prediction. We also experimentally show the effectiveness of the relay-restart.</p>
collection DOAJ
language English
format Article
sources DOAJ
author Rashid Mahmood A
Newton MA Hakim
Hoque Md Tamjidul
Shatabda Swakkhar
Pham Duc
Sattar Abdul
spellingShingle Rashid Mahmood A
Newton MA Hakim
Hoque Md Tamjidul
Shatabda Swakkhar
Pham Duc
Sattar Abdul
Spiral search: a hydrophobic-core directed local search for simplified PSP on 3D FCC lattice
BMC Bioinformatics
author_facet Rashid Mahmood A
Newton MA Hakim
Hoque Md Tamjidul
Shatabda Swakkhar
Pham Duc
Sattar Abdul
author_sort Rashid Mahmood A
title Spiral search: a hydrophobic-core directed local search for simplified PSP on 3D FCC lattice
title_short Spiral search: a hydrophobic-core directed local search for simplified PSP on 3D FCC lattice
title_full Spiral search: a hydrophobic-core directed local search for simplified PSP on 3D FCC lattice
title_fullStr Spiral search: a hydrophobic-core directed local search for simplified PSP on 3D FCC lattice
title_full_unstemmed Spiral search: a hydrophobic-core directed local search for simplified PSP on 3D FCC lattice
title_sort spiral search: a hydrophobic-core directed local search for simplified psp on 3d fcc lattice
publisher BMC
series BMC Bioinformatics
issn 1471-2105
publishDate 2013-01-01
description <p>Abstract</p> <p>Background</p> <p>Protein structure prediction is an important but unsolved problem in biological science. Predicted structures vary much with energy functions and structure-mapping spaces. In our simplified <it>ab initio </it>protein structure prediction methods, we use hydrophobic-polar (HP) energy model for structure evaluation, and 3-dimensional face-centred-cubic lattice for structure mapping. For HP energy model, developing a compact hydrophobic-core (H-core) is essential for the progress of the search. The H-core helps find a stable structure with the lowest possible free energy.</p> <p>Results</p> <p>In order to build H-cores, we present a new Spiral Search algorithm based on tabu-guided local search. Our algorithm uses a novel H-core directed guidance heuristic that squeezes the structure around a dynamic hydrophobic-core centre. We applied random walks to break premature H-cores and thus to avoid early convergence. We also used a novel relay-restart technique to handle stagnation.</p> <p>Conclusions</p> <p>We have tested our algorithms on a set of benchmark protein sequences. The experimental results show that our spiral search algorithm outperforms the state-of-the-art local search algorithms for simplified protein structure prediction. We also experimentally show the effectiveness of the relay-restart.</p>
work_keys_str_mv AT rashidmahmooda spiralsearchahydrophobiccoredirectedlocalsearchforsimplifiedpspon3dfcclattice
AT newtonmahakim spiralsearchahydrophobiccoredirectedlocalsearchforsimplifiedpspon3dfcclattice
AT hoquemdtamjidul spiralsearchahydrophobiccoredirectedlocalsearchforsimplifiedpspon3dfcclattice
AT shatabdaswakkhar spiralsearchahydrophobiccoredirectedlocalsearchforsimplifiedpspon3dfcclattice
AT phamduc spiralsearchahydrophobiccoredirectedlocalsearchforsimplifiedpspon3dfcclattice
AT sattarabdul spiralsearchahydrophobiccoredirectedlocalsearchforsimplifiedpspon3dfcclattice
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