본 연구는 페튜니아(Petunia×hybrida)의 내건성 증진을 위 해 스트레스 메모리 기작을 활용한 프라이밍 처리의 효과를 구명 하고자 하였다. 건조-회복 과정을 통한 프라이밍 처리를 4회 반복 수행하였고, 두 가지 프라이밍 강도(Priming1:물 100mL, Priming2: 물 50mL 관수 후 건조)를 적용한 후 5일 동안 건조스 트레스 조건에서 내성 증진 효과를 관찰하였다. 프라이밍 강도가 높은 Priming2 처리구에서 대조군에 비해 수명이 약 25시간 연장되었다. 이는 페튜니아가 스트레스 메모리 기작을 통해 건조 스트레스에 대한 내성을 높일 수 있음을 보여준다. 본 연구는 정원 식물의 환경 스트레스 내성을 증진시키기 위한 프라이밍 기술의 유용성을 확인하였으며, 향후 다양한 환경 스트레스 조건 에서의 프라이밍 효과를 평가함으로써 화훼식물의 내건성 증진 에 대한 실용적 기술 개발에 기여할 수 있을 것으로 기대된다.

본 연구는 제비동자꽃의 대량번식을 위한 효과적인 발아 조건을 선발하고자 수행되었다. 제비동자꽃 종자는 저온습윤 처리(5°C, 0, 4, 8, 12, 16주), GA3 처리(0, 500, 1000mg･L-1), 프라이밍 처리(0.1M, 0.2M의 NH4NO3, K2HPO4, KCl, KNO3)를 하였다. 모든 종자는 25°C, 12시간 광조건(40μmol･m-2 ･s-1)에 서 발아 실험이 진행되었으며, GA3 처리구는 비닐온실(평균 23.4°C)에서도 비교실험이 진행되었다. 저온습윤 8주 처리구 에서 20.4%로 가장 높은 발아율을 나타냈으며, 12주 이상의 저온습윤 처리는 오히려 제비동자꽃의 발아율을 감소시켰다. GA3 0, 500, 1000mg･L-1 처리된 종자는 25°C에서 각각 3.3, 44.0, 62.0%, 비닐온실에서 각각 5.3, 16.7, 42% 발아하였다. 제비동자꽃 종자는 GA3 농도가 높아질수록 발아율이 증가하였다. 또한 제비동자꽃 종자는 0.2M KNO3-프라이밍 처리구에서 가장 높은 발아율(54.7%)을 나타냈으며, 평균발아소요일수는 처리 간 유의성을 보이지 않았다. 이상의 결과로 효과적인 제비종자꽃 종자 번식을 위한 전처리 조건으로 24시간 GA3 1000mg･L-1 침지 처리 또는 0.2M-KNO3 프라이밍 처리를 추천한다.

This study was conducted to improve the postharvest storage techniques of managing and storing seeds, totest qualities and viabilities of the seeds and to examine the germination rate and the protein expression of Achyranthesjaponica Nakai. The seeds collected from different areas of Je-Cheon and Gwang-Ju were stored with different temperaturesand durations. Two plant growth regulators and two seed priming were treated to investigate their effect on the germinationrates and the days required for germination. The weight of one hundred seed collected in Gwang-Ju was heavier than thosein Je-Cheon. Seed length collected in Gwang-Ju was also longer about 5.12㎜ than those in Je-Cheon about 4.90㎜ andseed width was longer in Gwang-Ju than those in Je-Cheon. The rates of seed germination in two different collection areaswere higher about 2.9 to 13.0% in Gwang-Ju compared to those in Je-Cheon. Comparing its rates with the storing tempera-tures and durations, they were not clearly different in between 4℃ and 25℃ and they also were gradually decreased withgetting longer storing durations. The germination rates treated by plant growth regulators were higher with GA3 than thosewith Kinetin. The highest seed germination rate was appeared at 50 ppm of GA3. Comparing its rates with different seedpriming, they were relatively higher with KNO3 than those with PEG6000. In protein expression patterns between before thegerminating and after the germinating of seeds, more and clear bands were appeared in the seed after the germination com-pared to those before the germination of seeds, especially 10~20kDa. These results showing more and clear bands weremore clearly appeared in Gwang-Ju compared to Je-Cheon. Comparing the protein expression with plant growth regulatorsand seed primings, GA3 was better expression than those with Kinetin and KNO3 was better than those with PEG6000. Moreand clear bands were closely related to the germination rates of seeds and more detailed studies would be required.

This study was conducted to investigate the quality of seeds, the germination rates and the days required for germination, to examine the patterns of protein expressions during the germination and to improve the techniques of managing and storing seeds and viability of the seeds of Lithospermum erythrorhizon Sieb. et Zucc. After collecting and harvesting seeds, they were classified to white and brown colors of seed coat through testing their seed size, weight, and quality. The germination rates, the days required for germination, and the protein expressions were examined with different colors of seed coats, storing temperatures and durations by treating the different plant growth regulators and primings. One hundred seed weight of white color was heavier about 1.17 g than those of brown one about 0.81 g. The germination rates in white color of seed coat was higher, 3.05 ~ 5.75%, than those in brown one. Its rates were decreased with getting longer in storage durations. There was no big differences on germination rates between storage temperatures. The plant growth regulator of GA3 and Kinetin was affected to improve the seed germination. GA3 increased the seed germination clearly at 25 ppm level, while kinetin increased it gradually from 25 to 100 ppm levels. In germination by seed primings, PEG6000 made higher germination rate with increasing their levels, whereas KNO3 increased the germination until 100 mM level and then decreased it with 200 mM unlike PEG6000. The protein expressed during the seed germination were appeared more and clearer bands in the seed after germination, especially 20 ~ 30 kDa, compared to those in the seed before germination. These results showing more and clearer bands were positively related to the germination rates which were different by seed colors, storage temperatures and durations, and plant growth regulators and primings.