Abstract
The translation of mRNA into protein is tightly regulated by both cellular trans -factors and cis -regulatory elements encoded within transcripts. Although transcript fate can be measured by transcript abundance or translation efficiency, separating the contribution of each individual cis -element within a single transcript is an ongoing challenge. Current massively parallel reporter assay (MPRAs) approaches enable systematic interrogation of cis -regulatory elements that control transcript stability, but translation-focused MPRAs remain technically limited and often inaccessible. Here we present Nascent Peptide Translating Ribosome Affinity Purification (NaP-TRAP), a reporter-based approach that simultaneously measures translation and mRNA abundance. Unlike previous methods, NaP-TRAP captures translation directly through the immunoprecipitation of epitope-tagged nascent peptide chains, providing instantaneous, frame-specific readouts without specialized instrumentation. The method is highly scalable from single reporters to complex libraries, and adaptable across in vivo and in vitro systems. NaP-TRAP is versatile, allowing assessment of cis- regulatory impact of elements distributed throughout the mRNA, from cap-to-tail. This protocol covers experimental design, reporter construction, sample processing, and computational analysis for both low- and high-throughput applications. Bench work can be completed in 4- 5 days, with qPCR-based readouts requiring only basic Excel skills for data processing. Sequencing-based readouts require skills in command-line tools and Python scripting and add an additional 2-3 days. NaP-TRAP thus offers an accessible, robust, and quantitative platform to decode the regulatory logic of mRNA translation and stability in diverse biological contexts. BASIC PROTOCOL 1: Design, assembly, and synthesis of NaP-TRAP reporter libraries. SUPPORT PROTOCOL 1: Design, assembly, and synthesis of NaP-TRAP individual reporters and spike-ins. BASIC PROTOCOL 2: NaP-TRAP delivery by micro-injection in zebrafish embryos. ALTERNATE PROTOCOL 1: NaP-TRAP delivery by transfection in cultured mammalian cells. BASIC PROTOCOL 3: NaP-TRAP pulldown and RNA extraction. BASIC PROTOCOL 4: Preparation of NaP-TRAP cDNA Sequencing Libraries. ALTERNATE PROTOCOL 2: NaP-TRAP-qPCR module for low-cost validation. BASIC PROTOCOL 5: Computational analysis of NaP-TRAP MPRA data.