Helicases are motor proteins that catalyze the unwinding of duplex nucleic acids in an ATP-dependent manner. They are involved in almost all the nucleic acid transactions. In the present study, we report a comprehensive analysis of helicase gene family in human and its comparison with homologs in model organisms. The human genome encodes for 95 non-redundant helicase proteins, of which 64 are RNA helicases and 31 are DNA helicases. 57 RNA helicases are validated based on annotations and occurrence of conserved helicase signature motifs. These include 14 DExH and 37 DExD subfamily members, six other members such as U5.snRNP, ATR-X, Suv3, FANCJ, and two of superkiller viralicidic activity 2-like helicases. 31 DNA helicases are also identified, which include RecQ, MCM and RuvB-like helicases. Finding a set of helicases in human and almost similar sequences in model organisms suggests that the "core" members of helicase gene family are highly conserved throughout evolution. The present study gives an overview of members of RNA and DNA helicases encoded by the human genome along with their conserved motifs, phylogeny and homologs in model organisms. The study on comparing these homologs will spread light on the organization and complexity of helicase gene family in model organisms. The comprehensive analysis of human helicases presented in this study will further provide an invaluable resource for elaborate biological research on these helicases.