Isolation of scFv fragments specific for monokine induced by interferon-gamma (MIG) using phage display

Iterative affinity selection procedures were used to isolate a number of single chain Fv (scFv) antibody fragment clones from naïve Tomlinson I+J phage display libraries that specifically recognize and bind a chemokine, monokine induced by interferon-gamma (MIG/CXCL9). MIG is an important transplant rejection/biology chemokine protein. ELISA-based affinity characterization results indicate that selectants preferentially bind to MIG in the presence of key biopanning component materials and closely related chemokine proteins. These novel antibody fragments may find utility as molecular affinity interface receptors in various electrochemical biosensor platforms to provide specific MIG binding capability with potential applications in transplant rejection monitoring, and other biomedical applications where detection of MIG level is important.

Tiny medicine: nanomaterial-based biosensors

Tiny medicine refers to the development of small easy to use devices that can help in the early diagnosis and treatment of disease. Early diagnosis is the key to successfully treating many diseases. Nanomaterial-based biosensors utilize the unique properties of biological and physical nanomaterials to recognize a target molecule and effect transduction of an electronic signal. In general, the advantages of nanomaterial-based biosensors are fast response, small size, high sensitivity, and portability compared to existing large electrodes and sensors. Systems integration is the core technology that enables tiny medicine. Integration of nanomaterials, microfluidics, automatic samplers, and transduction devices on a single chip provides many advantages for point of care devices such as biosensors. Biosensors are also being used as new analytical tools to study medicine. Thus this paper reviews how nanomaterials can be used to build biosensors and how these biosensors can help now and in the future to detect disease and monitor therapies.