To develop and realize the personalized medicine and point-of-care applications in genetic testing, the full sequences of lab processes should be integrated. DNA extraction is essential and often required for a sensitive nucleic acid testing. This thesis introduces the implementation of magnetic beads (MB) based DNA extractions on electrowetting- based digital microfluidics (DMF). The reagents from two different extraction kits, ITRI and Agencourt Genfind v2, are characterized as a droplet on DMF. These droplets can be precisely manipulated by using electric signals, which simplifies the whole extraction procedures, and promises the possibility of process automation The results from the on-chip DNA extraction protocols are validated and quantified. DNA at 1.85 〖×10〗^(-2) ng/μl is successfully extracted from a droplet of 90 nl whole blood. Finally, our DMF microchip has been optimized in the following three aspects: (1) it has independent paths of the electrodes for different reagents to avoid the cross-contamination problem. (2) It utilizes MBs to replace the complex centrifugation in tradition DNA exrtaction procedures. (3) Ratio separation electrodes are designed to re-suspend the MBs and to improve the efficiency of the wasing process. Therefore, our DMF microchip not only can successfully extract the DNA from whole blood, but also demonstrate the possibility to use less sample/reagent and shorter process time to purify DNA on chip for point-of-care genetic testing.