A Data-Driven Sliding-Window Pairwise Comparative Approach for the Estimation of Transmission Fitness of SARS-CoV-2 Variants and the Construction of the Evolution Fitness Landscape

Authors

Md Jubair Pantho, University of Tennessee at Chattanooga
Richard Annan, North Carolina Agricultural and Technical State University
Landen Alexander Bauder, University of Tennessee at Chattanooga
Sophia Huang, Thomas Jefferson High School for Science and Technology, Alexandria, Virginia
Letu Qingge, North Carolina Agricultural and Technical State University
Hong Qin, Old Dominion UniversityFollow

Document Type

Article

Publication Date

2025

DOI

10.1002/qub2.70003

Publication Title

Quantitative Biology

Volume

13

Issue

4

Pages

e70003 (1-12)

Abstract

Estimating the transmission fitness of SARS-CoV-2 variants and understanding their evolutionary fitness trends are important for epidemiological forecasting. Existing methods are often constrained by their parametric natures and do not satisfactorily align with the observations during COVID-19. Here, we introduce a sliding-window data-driven pairwise comparison method, the differential population growth rate (DPGR) that uses viral strains as internal controls to mitigate sampling biases. DPGR is applicable in time windows in which the logarithmic ratio of two variant subpopulations is approximately linear. We apply DPGR to genomic surveillance data and focus on variants of concern (VOCs) in multiple countries and regions. We found that the log-linear assumption of DPGR can be reliably found within appropriate time windows in many areas. We show that DPGR estimates of VOCs align well with regional empirical observations in different countries. We show that DPGR estimates agree with another method for estimating pathogenic transmission. Furthermore, DPGR allowed us to construct viral relative fitness landscapes that capture the shifting trends of SARS-CoV-2 evolution, reflecting the relative changes of transmission traits for key genotypic changes represented by major variants. The straightforward log-linear regression approach of DPGR may also facilitate its easy adoption. This study shows that DPGR is a promising new tool in our repertoire for addressing future pandemics.

Rights

© 2025 The Authors.

This is an open access article under the terms of the Creative Commons Attribution 4.0 International (CC BY 4.0) License, which permits use, distribution and reproduction in any medium, provided the original work is properly cited.

Data Availability

Article states: "Sample code and key estimates are provided at GitHub (QinLab/DPGR2024). The GISAID data can be accessed at the GISAID website."

Original Publication Citation

Pantho, M. J., Annan, R., Bauder, L. A., Huang, S., Qingge, L., & Qin, H. (2025). A data-driven sliding-window pairwise comparative approach for the estimation of transmission fitness of SARS-CoV-2 variants and construction of the evolution fitness landscape. Quantitative Biology, 13(4), 1-12, Article e70003. https://doi.org/10.1002/qub2.70003

Repository Citation

Pantho, M. J., Annan, R., Bauder, L. A., Huang, S., Qingge, L., & Qin, H. (2025). A data-driven sliding-window pairwise comparative approach for the estimation of transmission fitness of SARS-CoV-2 variants and construction of the evolution fitness landscape. Quantitative Biology, 13(4), 1-12, Article e70003. https://doi.org/10.1002/qub2.70003

ORCID

0000-0002-1060-6722 (Qin)