While tRNA-derived fragments (tDRs) play important roles in gene expression regulation, it is technically challenging to distinguish bona fide tDRs from nicked tRNAs. This is because analytical techniques used to study RNA, such as northern blot, RT-qPCR or sequencing involve the use of denaturing reagents (e.g., phenol, formamide, urea) or physical procedures (e.g., heat) that convert nicked tRNAs into tRNA halves or other tDRs. In this chapter, we describe a protocol that enables the purification of nicked tRNAs under non-denaturing conditions that preserve their 3D structure. Purified nicked tRNAs can then be either enzymatically repaired into almost full-length tRNAs, or chromatographically separated from single-stranded tDRs before detection. These protocols will allow researchers to distinguish between structurally distinct but sequence identical tDRs and nicked tRNAs, disentangling their biological functions.