| Abstract: | Defects in vital genes occur in a high percentage of human diseases, including cancer. Defects could be due to the accumulation of mutations in the genes leading to the production of faulty proteins. Although the biological significance of such mutant proteins still remains in question, recent experiments have demonstrated that genes overproducing faulty proteins are often associated with tumor cell growth. Thep53tumor suppressor gene is the most frequently mutated gene yet identified in human cancer. It is mutated in wide variety of human cancers. Missense mutations are common for thep53gene and are essential for the transforming ability of the oncogene. The wild-typep53gene may directly suppress cell growth or indirectly activate genes that are involved in growth suppression. Thus inactivation of wild-typep53by point mutation may contribute to transformation. Therefore, identification of such mutations have potential clinical implications. Recently, polymerase chain reaction-based advanced molecular techniques had a profound impact on the detection and identification of such mutations. These techniques are sensitive and quantitative tools for the study of the pathogenesis of neoplastic diseases at the single-cell level. |
