The value of agricultural products is increasing day by day, but the effect of the substances used to protect product health and yield is decreasing day by day. The increase in the number of plant pathogens that develop resistance and the difficulties in their elimination lead to the application of new prevention approaches against these pathogens. In this context, while biological control agents mainly suppress the development of plant pathogens, they can provide secondary benefits by improving host plant resistance. In addition to the availability of natural control agents, the implementation of these functions through genetic modifications is a factor that increases efficiency. In this model, it is aimed to determine the inhibition ability provided by determining the gene sequences associated with the inhibition efficiency of biocontrol agents shared in the literature. Sequence data of agents selected from the literature showing genome sequencing or gene sequence availability were compared, and in the results obtained, it was observed that hydrolytic enzymes, plant growth promoting genes and systemic resistance-inducing gene sequences were common. In the light of these data obtained, it was determined that the hypothetical analyzes made by adding new samples showed over 80 percent compatibility and a margin of error of 17.8 percent. Thanks to this study, different results related to the results obtained in new experiments can be put forward, the biocontrol abilities of new samples can be evaluated, and greenhouse experiments that can be carried out with more challenging and financial means can be facilitated.