초록
수박작물의 대목용으로 사용하는 수박공대에 CGiMMV-CP 유전자를 도입하여 개발된 LM 수박공대의 CGMMV 내성 정도를 격리하우스와 노지 포장내에서 조사하였다. 격리온실에서의 $T_{3}$ 형질전환 수박대목의 CGMMV 내성은 접종 후 70일까지 유지되는 반면 대조구는 접종 후 20일에 전부 이병되었다. 인위적 토양전염 포장에서 형질전환체는 접종후71일까지 약 40%의 내성률을 보였으며, 대조구는 접종 후 37일에 모두 이병되었다. 인위적 접촉전염 포장에서 형질전환체는 대조구에 비해 약 10일 정도 지연효과를 보였다. 따라서 CGMMV-CP 형질전환체는 CGMMV에 저항성을 가진 것이 아니라 감염시기를 지연시키는 부분 내성으로 나타났다. CGMMV-CP homozygous T 세대를 진전시켜서 형질전환 수박공대 계통을 $BC_{1}T_{5}$ 세대에서 선발하였다. 또한 LM 수박공대에 형질전환 되지 않은 접수 (슈퍼금천수박)를 접목하여 non-LM 수박을 생산하고 CGMMV-CP 유전자에 관련된 물질의 이동 여부를 조사하였다. PCR, northern, western 분석한 결과 수박공대 대목에서 형성되는 DNA, RNA, protein 물질이 접수로 이동되지 않음을 확인하였다.
Previously developed transgenic watermelon rootstocks (gongdae) inserted by CGMMV-CP were examined to test the virus tolerance levels. In the restricted plastic house, the $T_{3}$ watermelon rootstock showed tolerance to CGMMV until 70 days after inoculation on the leaves while the non-transformed watermelon rootstock became susceptible at 20 days after inoculation. In the field, tolerance efficiency of transgenic rootstocks maintained up to 40% at 71 days after contamination with CGMMV in the soil while all of the non-transformed rootstocks became susceptible at 37 days with the same condition. In the same field, transgenic rootstocks showed more tolerance to CGMMV than the non-transformed rootstocks as those were inoculated on the leaves, but it showed only 10 days delay before being susceptible. Therefore, transgenic rootstocks have a characteristic of delay effect against CGMMV susceptibility, rather than resistance character. From $T_{3}$ rootstocks homozygous for the CGMMV-CP horticulturally favorable individuals were selected for further breeding and a transgenic line was finally obtained at the $BC_{1}T_{5}$. A material transfer experiment was conducted to find out if the DNA, RNA or expressed protein in the transgenic rootstocks could move to the grafted scion (non-transformed watermelon, Super-Kumcheon). PCR, northern, and western blot analysis were performed and no evidence of transferring of those materials from rootstock to scion was ever found.