Abstract
Transfection, a fundamental molecular biology technique, is crucial in introducing foreign DNA into cells. Despite its pivotal importance, mastering this technique remains a formidable challenge. In this study, we employed the calcium phosphate reagent and conducted a systematic exploration through time-dependent experiments to assess its impact on human primary splenic fibroblast cells (HSFC). The results precisely delineate optimal time frames for achieving enhanced transfection efficiency, offering conclusive evidence for the efficacy of calcium phosphate in transient transfection within the cells. The data significantly advances our comprehension of HSFC reactions, contributing to refining transfection methodologies with broader implications for biomedical applications.
Competing Interest Statement
The authors have declared no competing interest.