Film-Spotting chiral miniPEG-γPNA array for BRCA1 gene mutation detection

Abstract Peptide nucleic acids array technology is a method of greatly increasing the throughput of laboratory processes to efficiently perform large-scale genetic tests. Diethylene glycol-containing chiral γPNA (miniPEG-γPNA) is considered to be the best PNA derivative and one of the best candidates for gene detection, because it can hybridize DNA with greater affinity and sequence selectivity than DNA and ordinary aminoethylglycyl PNA ( aeg PNA). Herein, miniPEG-γPNA probes are synthesized by 9-fluorenylmethyloxycarbonyl (Fmoc) solid phase peptide synthesis (SPPS) in a mild condition, and a new biochip fabrication method “Film-Spotting” is invented, by which γPNA arrays with regular pattern, uniform luminance, and very low fluorescence background are obtained easily and cheaply. The miniPEG-γPNA array can effectively distinguish the full matched and mismatched targets in SSarc buffer, serum and urine, and the detection limit of complementary DNA is less than 5.97 nM. A miniPEG-γPNA array for BRCA1 gene mutation (3099delT) detection is also fabricated with a very good detection performance. This work provides an effective avenue for the diagnosis of breast cancer biomarker and expands the application of miniPEG-γPNA in the field of biochip.