The separation of intracellular components has been a key tool in cellular biology for many years now and has been able to provide useful insight into how their location can impact their function. In particular, the separation of nuclear and cytoplasmic RNA has become important in the context of cancer cells and the quest to find new targets for drugs. Purchasing kits for nuclear-cytoplasmic RNA extraction can be costly when many of the required materials can be found within a typical lab setting. Using the present method, which can replace more expensive kits or other time-consuming processes, only a homemade lysis buffer, a benchtop centrifuge, and RNA isolation purification columns are needed to isolate nuclear and cytoplasmic RNA. Lysis buffer is used to gently lyse the cell's outer membrane without affecting the integrity of the nuclear envelope, allowing for releasing its intracellular components. Then, the nuclei can be isolated by a simple centrifugation step since they possess a higher density than the lysis solution. Centrifugation is utilized to separate these areas based on their density differences to isolate subcellular elements in the nucleus from those in the cytoplasm. Once the centrifugation has isolated the different components, an RNA clean-up kit is utilized to purify the RNA content, and qPCR is performed to validate the separation quality, quantified by the amount of nuclear and cytoplasmic RNA in the different fractions. Statistically significant levels of separation were achieved, illustrating the protocol's effectiveness. In addition, this system can be adapted for the isolation of different types of RNA (total, small RNA, etc.), which allows for targeted studying of cytoplasm-nucleus interactions, and aids in understanding the differences in the function of RNA that reside in the nucleus and cytoplasm.