Yeast two-hybridization (Y2H) is a classical method to study protein-protein interactions in organisms, and the top limitation of Y2H is the high ratio of false negatives and false positives. The most efficient way to reduce this error is to improve the quality of the library. The traditional library quality evaluation method can only inform us of the capacity of the library and a very limited number of library insert lengths. Therefore, we developed a new method to evaluate the library by using only a 10 ng library, amplifying the inserted fragments through 15 cycles of PCR, and then carrying out high-throughput sequencing. This method can eliminate the randomness and one-sidedness of the traditional method and can be used to obtain key indicators, such as the number of inserted genes and gene abundance, to effectively evaluate the quality of the library. In addition, the new library quality assessment method can also reveal the gene sequences of species. This method is expected to greatly accelerate PPI research on nonmodel species.
Keywords: high-throughput sequencing; library quality evaluation; nonmodel species; yeast two-hybridization.