The detection of biomarker is important for early disease diagnosis. Enzymes and fluorescence immunoassay are often used, however the procedures are complicated and time-consuming.The costs of the instruments of enzymes and fluorescence immunoassay are expensive. An alternative method, the electrochemistry biosensor system was developed, which instruments are tiny, portable and able to process immediate detection, as a result, it is potentially achieve point-of-care. Electrochemical biosensing system is highly sensitive it’s detection limit is low. The first step of preparation of biosensors, is to label biomarker probes on the electrode. This research is aimed to the development of screen-printed carbon electrode coupled with electrochemical biosensor systems. In this research, we use low-cost screen-printed carbon electrode, to study the effect of electrochemical to active the electrode, labeled with protein modified with chitosan and explore the effect of different cross-linking agent to identify biological molecules connect with chitosan. Cyclic voltammetry and electrochemical impedance measurement were used to verify the change of electrode surface for early modification. The results showed that the electrochemical method to active the electrode active, then use glutaralde and chitosan mix solution to form a bonding with bovine serum albumin (BSA) on the screen-printed carbon electrode. It can be achieved better reproducibility of sensing components.