Litcius/Paper detail

fastHaN: a fast and scalable program for constructing haplotype network for large‐sample sequences

Lianjiang Chi, Xiaolong Zhang, Yongbiao Xue, Hua Chen

2023Molecular Ecology Resources12 citationsDOI

Abstract

Haplotype networks can be used to demonstrate the genealogical relationships of DNA sequences within species, and thus are widely applied in population genetics, molecular ecology, epidemiology and evolutionary studies. However, existing programs become computationally infeasible as the sample size increases. Here, we present fastHaN, an efficient and scalable program suitable for constructing haplotype networks for large samples. On a data set with the haplotype length of 30 kb, the Median Joining Network (MJN) algorithm implemented by fastHaN is 3000 times faster than PopART and 70 times faster than NETWORK in single-threaded mode. The implementation of the Templeton-Crandall-Sing (TCS) algorithm is 100 times faster than PopART and 5800 times faster than the TCS software. Moreover, fastHaN also enables multi-threaded mode with scalability. The source code is freely available on https://github.com/ChenHuaLab/fastHaN/. A web-based version is also available on https://ngdc.cncb.ac.cn/haplotype/.

Topics & Concepts

HaplotypeScalabilityBiologySource codeSoftwareSet (abstract data type)Sample (material)Mode (computer interface)Code (set theory)PopulationComputer scienceComputational biologyGeneticsTheoretical computer scienceGeneOperating systemGenotypePhysicsProgramming languageDemographyThermodynamicsSociologyBioinformatics and Genomic NetworksGenetic Mapping and Diversity in Plants and AnimalsGenetic Associations and Epidemiology