Shuo Pan scite author profile

Shuo Pan

4Publications

124Citation Statements Received

45Citation Statements Given

How they've been cited

141

123

How they cite others

Affiliations

Nankai University

Publications

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mTM-align: a server for fast protein structure database search and multiple protein structure alignment

Dong

Pan

Peng

et al. 2018

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With the rapid increase of the number of protein structures in the Protein Data Bank, it becomes urgent to develop algorithms for efficient protein structure comparisons. In this article, we present the mTM-align server, which consists of two closely related modules: one for structure database search and the other for multiple structure alignment. The database search is speeded up based on a heuristic algorithm and a hierarchical organization of the structures in the database. The multiple structure alignment is performed using the recently developed algorithm mTM-align. Benchmark tests demonstrate that our algorithms outperform other peering methods for both modules, in terms of speed and accuracy. One of the unique features for the server is the interplay between database search and multiple structure alignment. The server provides service not only for performing fast database search, but also for making accurate multiple structure alignment with the structures found by the search. For the database search, it takes about 2–5 min for a structure of a medium size (∼300 residues). For the multiple structure alignment, it takes a few seconds for ∼10 structures of medium sizes. The server is freely available at: http://yanglab.nankai.edu.cn/mTM-align/.

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CATHER: a novel threading algorithm with predicted contacts

Pan

et al. 2019

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Motivation Threading is one of the most effective methods for protein structure prediction. In recent years, the increasing accuracy in protein contact map prediction opens a new avenue to improve the performance of threading algorithms. Several preliminary studies suggest that with predicted contacts, the performance of threading algorithms can be improved greatly. There is still much room to explore to make better use of predicted contacts. Results We have developed a new contact-assisted threading algorithm named CATHER using both conventional sequential profiles and contact map predicted by a deep learning-based algorithm. Benchmark tests on an independent test set and the CASP12 targets demonstrated that CATHER made significant improvement over other methods which only use either sequential profile or predicted contact map. Our method was ranked at the Top 10 among all 39 participated server groups on the 32 free modeling targets in the blind tests of the CASP13 experiment. These data suggest that it is promising to push forward the threading algorithms by using predicted contacts. Availability and implementation http://yanglab.nankai.edu.cn/CATHER/. Supplementary information Supplementary data are available at Bioinformatics online.

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Analyzing the environmental and economic impact of industrial transfer based on an improved CGE model: Taking the Beijing–Tianjin–Hebei region as an example

Liu

Pan

Hou

et al. 2020

Environmental Impact Assessment Review

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An Optimal Method for Extracting the Center of Light Stripes

Pan¹,

Shao²

2021

J. Phys.: Conf. Ser.

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A method for extracting the center of the light stripe to effectively reduce the environmental noise is proposed in this paper. The block matching algorithm is adapted to use the global information in the structured light image to group image blocks with similar light stripe structures. The center coordinates of the light stripe in each group of image blocks are extracted by the gray gravity method, and its average value is used as the final center of light stripes in the similar image block, which reduces the influence of random noise on the accuracy of the extraction algorithm.

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Shuo Pan

mTM-align: a server for fast protein structure database search and multiple protein structure alignment

CATHER: a novel threading algorithm with predicted contacts

Analyzing the environmental and economic impact of industrial transfer based on an improved CGE model: Taking the Beijing–Tianjin–Hebei region as an example

An Optimal Method for Extracting the Center of Light Stripes

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