유전공학발명의 파라미터 활용에 관한 연구 - DNA 단편의 명세서 기재를 중심으로 -

Lately, the genetic engineering field is developing rapidly again with the introduction of artificial intelligence and big data technology. In particular, the recently introduced 4th generation gene scissors provide amazing accuracy even for just one single nucleotide, and through bioinformatics technology, it is achieving results that were difficult to predict in the past. In line with this, as new factors involved in heredity are experimentally discovered, various discussions are underway to revise the existing fundamental viewpoint on genetic engineering. In this transitional situation, there are cases where it is not appropriate to specify an invention related to a DNA fragment with only the base sequence. However, it is necessary to note that analysis technology is also rapidly developing and is beginning to provide highly precise specification and comparison, and it is possible to consider utilizing parameters in addition to base sequences or homology as a method of specifying an invention related to a DNA fragment. But, parameter inventions imply issues regarding the clarity of claims, and the description requirements such as enablement requirements are also likely to be problematic, so there are matters that require special attention in practice. First, when targeting new genetic engineering elements and analysis techniques, the concept of parameters related to them should be clearly defined in the initial description. Second, since the measurement methods for DNA fragments are very diverse, ranging from methods used for a long time to methods introduced recently, and since the results are highly dependent on the measurement method, the measurement methods for variables that constitute such parameters should be clearly specified in the initial description. Third, care should be taken not to overemphasize the description of the concept and measurement method of parameters and overlook the fact that the method for synthesizing the invention related to DNA fragments that correspond to such parameters should also be described. Fourth, if the description of the synthesis method as above is insufficient to ensure that it can be easily implemented by a person skilled in the art, it may be supplemented through deposit. Fifth, since the invention related to DNA fragments differs depending on its length, but the number of cases is greater than that of mechanical inventions or general chemical inventions, and thus there are relatively many implementation modes, sufficient examples and comparative examples should be presented. However, as analytical technology has rapidly developed recently, it is expected that it will help somewhat with the burden of having to disclose examples as highly precise specifications and comparisons become possible, and in the future, when virtual experiments utilizing bioinformatics technology are activated, the human and material burdens that follow will also be more efficient. Finally, since corrections such as adding a method for synthesizing DNA fragments or experimental data to resolve insufficient descriptions after application are likely to be treated as new matters, and since the description requirements of the specification are rights creation requirements and the applicant bears the burden of proof in the event of a dispute over them, more careful attention is required when writing the initial description.