Optimization of Amplicon-Based Sequencing for Large-Scale Diagnostics of Known Pome Viruses and Viroids

Abstract

The implementation of reliable methods for the simultaneous detection of multiple viruses is challenging in plant viral diagnosis. In the present study, we report the development and effectiveness of an optimized version of a robust multiplexed PCR (HiPlex) followed by simultaneous targeted amplicon sequencing to detect 14 viruses and 5 viroids of pome fruit trees. We used amplicon sequencing data from 1,400 pome fruit tree samples previously diagnosed with the HiPlex v.1.0, which included 290 primer pairs for pome viruses. The analysis enabled the identification of highly efficient and specific primer pairs to be assembled in a new HiPlex (dubbed HiPlex v.2.0). Additionally, newly designed primers were implemented for 30% of targeted viruses and viroids. Overall, 116 primer pairs were assembled into the HiPlex v.2.0, resulting in a reduction of the number of primers and multiplex PCR reactions needed by 60 and 50%, respectively. The new HiPlex also includes two nepoviruses, tomato ringspot virus and tobacco ringspot virus, showing flexibility at augmenting and expanding the number of targeted diagnosed viruses using this approach. This optimized set of primers increased the cost-effectiveness and sensitivity while reducing background amplification. Comparable results for virus and viroid detection were obtained using the HiPlex v.2.0 and individual RT-qPCRs, even at a 10,000-fold dilution, demonstrating similar sensitivity to standard PCR-based diagnostics. This new HiPlex-based amplicon sequencing represents a powerful, sensitive, and low-cost tool for large-scale screening of pome fruit trees for all reported viruses and viroids infecting these crops. [Formula: see text] Copyright © 2024 The Author(s). This is an open access article distributed under the CC BY-NC-ND 4.0 International license .