Cell populations that have stable changes in their genomic information are widely used by scientists as a research model. They do not require repeated cell transfection as it can lead to a heterogeneous cell population and variable transfection efficiency, affecting reproducibility. Moreover, they are preferable for large-scale analyses. The generation of stable cell clones is useful for a wide range of applications, such as research on gene functions and recombinant protein production. There are a few methods to obtain a homogenous cell population upon initial transient transfection. Here, we describe the isolation of single cell clones with glass cylinders. Although this method has been known for some time, there are a few crucial steps, and neglecting them may lead to failure. We have successfully used this method to obtain clones stably overexpressing a protein of interest (POI) or with knockout of a gene of interest (GOI). We describe preparation steps such as the optimization of selecting drug concentrations, preparation of glass cylinders, and validation of whether the obtained clones have the desired change in the expression of the GOI by PCR, western blot analysis, immunostaining, or gDNA sequencing (depending on the type of derived clones). We also discuss the phenotypic heterogeneity of well-established cell lines as this might be an issue in obtaining stable cell clones.