Complementary DNA oligonucleotide direct in-gel quantification (cDINGQ) for precise tRNA fragment analysis
- Marko Jörg1,
- Marco Kristen1,
- Lukas Walz1,
- Christine Lietz1,
- Max Müller1,
- Sebastian Nathal1,
- Virginie Marchand2,
- Yuri Motorin2,3,
- Marie-Luise Winz1,
- Mark Helm1 and
- Kristina Friedland1
- 1Institute of Pharmaceutical and Biomedical Sciences, Johannes Gutenberg University, Mainz 55128, Germany
- 2Université de Lorraine, Epitranscriptomics and RNA Sequencing (EpiRNA-Seq) Core Facility, SMP IBSLor, Nancy 54000, France
- 3Université de Lorraine, IMoPA UMR7365 CNRS-UL, BioPole, Nancy 54000, France
- Corresponding author: kfriedla{at}uni-mainz.de
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Handling editor: Eric Phizicky
Abstract
tRNA-derived fragments have emerged as critical regulators in various biological processes, but reliable methods for their quantification remain a challenge due to their small size and extensive RNA modifications. In this study, we present the newly developed Complementary DNA Oligonucleotide Direct In-Gel Quantification (cDINGQ) method for tRF analysis and compare it with traditional radioactive [32P] northern blotting, nonradioactive approaches, and high-throughput Illumina sequencing under different experimental conditions. The cDINGQ method, utilizing Cy5-labeled hybridization probes, offers high specificity and sensitivity for detecting tRFs with significantly reduced processing time and costs. By applying these techniques to an Alzheimer's disease (AD) cell model, we demonstrate the reliability of these methods in detecting subtle variations in tRF abundance. Our findings highlight the sensitivity, specificity, and applicability of each method, addressing limitations such as RNA input requirements and probe hybridization conditions. The study further explores the utility of these methods for detecting tRFs in various biological contexts, emphasizing their potential for future research and biomarker discovery in disease-related studies.
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Article is online at http://www.rnajournal.org/cgi/doi/10.1261/rna.080749.125.
- Received September 2, 2025.
- Accepted December 19, 2025.
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