Refining pairwise sequence alignments of membrane proteins by the incorporation of anchors

Staritzbichler, René; Sarti, Edoardo; Yaklich, Emily; Aleksandrova, Antoniya A.; Stamm, Marcus; Khafizov, K.; Forrest, Lucy R.

doi:10.1371/journal.pone.0239881

Cited by 2 publications

(1 citation statement)

References 51 publications

(67 reference statements)

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“…Lately, many research methods [36][37][38][39][40][41][42][43][44][45][46][47] have been conducted for the purpose of improving the efficiency and performance of the pairwise sequence alignment through wide diversity. Despite the fact that the DP-based pairwise sequence alignment algorithms have reached an optimal alignment, reaching a high time performance remains a challenge itself.…”

Section: Dynamic-programming-based Methodsmentioning

confidence: 99%

Efficient computation of Hash Hirschberg protein alignment utilizing hyper threading multi‐core sharing technology

Abu-Hashem

Gutub

2021

CAAI Trans on Intel Tech

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Due to current technology enhancement, molecular databases have exponentially grown requesting faster efficient methods that can handle these amounts of huge data. Therefore, Multi-processing CPUs technology can be used including physical and logical processors (Hyper Threading) to significantly increase the performance of computations. Accordingly, sequence comparison and pairwise alignment were both found contributing significantly in calculating the resemblance between sequences for constructing optimal alignments. This research used the Hash Table-NGram-Hirschberg (HT-NGH) algorithm to represent this pairwise alignment utilizing hashing capabilities. The authors propose using parallel shared memory architecture via Hyper Threading to improve the performance of molecular dataset protein pairwise alignment. The proposed parallel hyper threading method targeted the transformation of the HT-NGH on the datasets decomposition for sequence level efficient utilization within the processing units, that is, reducing idle processing unit situations. The authors combined hyper threading within the multicore architecture processing on shared memory utilization remarking performance of 24.8% average speed up to 34.4% as the highest boosting rate. The benefit of this work improvement is shown preserving acceptable accuracy, that is, reaching 2.08, 2.88, and 3.87 boost-up as well as the efficiency of 1.04, 0.96, and 0.97, using 2, 3, and 4 cores, respectively, as attractive remarkable results.

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Section: Dynamic-programming-based Methodsmentioning

confidence: 99%

Efficient computation of Hash Hirschberg protein alignment utilizing hyper threading multi‐core sharing technology

Abu-Hashem

Gutub

2021

CAAI Trans on Intel Tech

View full text Add to dashboard Cite

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AlignMe: an update of the web server for alignment of membrane protein sequences

Staritzbichler

Yaklich

Sarti

et al. 2022

Nucleic Acids Research

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The AlignMe web server is dedicated to accurately aligning sequences of membrane proteins, a particularly challenging task due to the strong evolutionary divergence and the low compositional complexity of hydrophobic membrane-spanning proteins. AlignMe can create pairwise alignments of either two primary amino acid sequences or two hydropathy profiles. The web server for AlignMe has been continuously available for >10 years, supporting 1000s of users per year. Recent improvements include anchoring, multiple submissions, and structure visualization. Anchoring is the ability to constrain a position in an alignment, which allows expert information about related residues in proteins to be incorporated into an alignment without manual modification. The original web interface to the server limited the user to one alignment per submission, hindering larger scale studies. Now, batches of alignments can be initiated with a single submission. Finally, to provide structural context for the relationship between proteins, sequence similarity can now be mapped onto one or more structures (or structural models) of the proteins being aligned, by links to MutationExplorer, a web-based visualization tool. Together with a refreshed user interface, these features further enhance an important resource in the membrane protein community. The AlignMe web server is freely available at https://www.bioinfo.mpg.de/AlignMe/.

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Refining pairwise sequence alignments of membrane proteins by the incorporation of anchors

Cited by 2 publications

References 51 publications

Efficient computation of Hash Hirschberg protein alignment utilizing hyper threading multi‐core sharing technology

Efficient computation of Hash Hirschberg protein alignment utilizing hyper threading multi‐core sharing technology

AlignMe: an update of the web server for alignment of membrane protein sequences

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