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January 23, 2025

Computational tool streamlines genetic analysis for evolutionary biologists

Scatter diagram showing how PsiPartition finds the best model (red spot) for each dataset. Credit: Journal of Molecular Evolution (2024). DOI: 10.1007/s00239-024-10215-7
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Scatter diagram showing how PsiPartition finds the best model (red spot) for each dataset. Credit: Journal of Molecular Evolution (2024). DOI: 10.1007/s00239-024-10215-7

Researchers at Hokkaido University have developed a to help evolutionary biologists analyze complex genetic data to reconstruct the evolutionary history of species and the relationships between them.

The tool, called PsiPartition, improves both the computational efficiency of the data analysis and the accuracy of the phylogenetic trees that visualize these relationships. The novel method was published in the Journal of Molecular Evolution.

By analyzing between species, evolutionary biologists can infer how closely related they are and map out their evolutionary history. The result of this analysis is a , which illustrates the branching patterns of evolution, showing common ancestors and the paths of divergence that led to the diversity of life we see today.

Modern sequencing technologies produce huge amounts of genomic data for , but different regions of the genome evolve at different rates. Some genes evolve more rapidly than others, and specific parts of the genome display unique evolutionary patterns.

This phenomenon, known as site heterogeneity, makes it challenging to model evolution accurately using existing approaches, which can be either too slow or imprecise.

The PsiPartition phylogenetic tree (bottom) for four moth species in Noctuidae, compared to a tree constructed in a different software (top). The PsiPartition tree is different, and possibly more accurate due to the high bootstrap values. Common names of the moths are the shark moth (Cucullia umbricata), the abrupt brother moth (Raphia abrupta or sp), the silver hook moth (Deltote uncula) and the figure of eight moth (Diloba caeruleocephala). Credit: Journal of Molecular Evolution (2024). DOI: 10.1007/s00239-024-10215-7
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The PsiPartition phylogenetic tree (bottom) for four moth species in Noctuidae, compared to a tree constructed in a different software (top). The PsiPartition tree is different, and possibly more accurate due to the high bootstrap values. Common names of the moths are the shark moth (Cucullia umbricata), the abrupt brother moth (Raphia abrupta or sp), the silver hook moth (Deltote uncula) and the figure of eight moth (Diloba caeruleocephala). Credit: Journal of Molecular Evolution (2024). DOI: 10.1007/s00239-024-10215-7

"PsiPartition is a useful tool that simplifies the analysis of DNA data by dividing it into groups, or partitions, to account for differences in how fast various parts of the DNA evolve," explains the study's first author, Shijie Xu of the Graduate School of Environmental Science at Hokkaido University.

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"What makes PsiPartition unique is its ability to quickly and accurately determine evolutionary rates using advanced algorithms. It also automatically identifies the optimal number of partitions to use, saving time and reducing errors common in traditional methods."

PsiPartition delivered impressive results when it was tested with both real and simulated data. It had a significantly improved processing speed, particularly for , as well as excelling at handling complex, highly variable data.

Most notably, for the moth family Noctuidae, it improved the accuracy of the reconstructed phylogenetic trees, as the bootstrap support for the branches was high. Thus, the PsiPartition trees provide a different and possibly more accurate evolutionary reconstruction of these species.

"Our tool will allow evolutionary biologists to study more accurately and efficiently," says lead author Professor Akira Onoda of the Faculty of Environmental Earth Science at Hokkaido University.

"By simplifying the analysis of large, complex genomic datasets, PsiPartition provides a powerful new tool for evolutionary research."

More information: Shijie Xu et al, PsiPartition: Improved Site Partitioning for Genomic Data by Parameterized Sorting Indices and Bayesian Optimization, Journal of Molecular Evolution (2024).

Provided by Hokkaido University

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A new computational tool, PsiPartition, enhances genetic analysis for evolutionary biologists by improving the efficiency and accuracy of phylogenetic tree construction. It addresses site heterogeneity by partitioning DNA data based on evolutionary rates, optimizing the number of partitions automatically. PsiPartition demonstrated superior processing speed and accuracy, particularly with large datasets, offering a more precise evolutionary reconstruction, notably for the moth family Noctuidae.

This summary was automatically generated using LLM.