Interferon (IFN)-alphas constitute a family of proteins exhibiting high degree of homology in primary, secondary, and tertiary structure and display a high level of species specificity in their biological properties. However, small structural differences in these proteins may be responsible for a significant variety of biological actions. Understanding the structure and function of human IFN-alpha is very important. Recombinant techniques are important tools for the production and modification of IFN proteins. The first IFN hybrid, IFN-alpha1/alpha2 was constructed using recombinant technology in 1981. Subsequently, a number of IFN hybrids and mutants have been constructed, expressed and characterized. These hybrids and mutants have resulted in novel IFNs that either combine different biological properties from the parental proteins or have significantly different biological activity. Therefore, IFN hybrids and mutants have provided a powerful tool for studying the structure and function of these molecules. Also, these engineered IFNs may have important new therapeutic applications and may provide greater sights into understanding of the clinical activities of these molecules.