Abstract
The Neomycin resistant gene in transposon 5 (Tn5) was introduced into a mutant of Bradyrhizobium japonicum RJB 6 $str^rnal^r$ by conjugation. This marked strain was used in coinoculation of soybean with Pseudomonas fluorescens(Ps-3) and Bacillus subtilis(BCAC-4) and in antibiotic treatment of soybean for studying rate of nodule formation and growth promoting effect on soybean plant. When the marked strain RJB 6 $str^rnal^rneo^r$ with Ps-3, BCAC-4, and Ps-3 plus BCAC-4 was coinoculated into two soils, the recovery rate of the marked strain was 8.5, 4.3 and 2.9 percent in soybean cultivated soil, and 10.3. 6.0 and 5.0 percent in soybean uncultivated soil. The best growth promoting effect of coinoculation on soybean plant was found with the marked strain plus Ps-3. When the marked strain was inoculated into soybean with antibiotic treatment, the rate of nodule formation in soybean cultivated soil was between 12.5 and 25.4 percent, while that in soybean uncultivated soil was between 23.7 and 43.2 percent. The highest rate of nodule formation with the marked strain was found in streptomycin 1000 ppm treatment plot.
Bradyrhizobium japonicum RJB6$str^rnal^r$에 neomycin resistant gene인 Tn5을 삽입한 표지균주를 사용하여 Pseudomonas fluorescens(PS-3)와 Bacillus subtilis(BCAC-4)를 대두에 혼합접종하고, 또한 항생제 처리후 표지균주를 접종한 대두의 생장 및 근류형성율을 조사 분석한 결과를 요약하면 다음과 같다. 1. 5년이상 대두 재배토양에 표지균주인 RJB6 $str^rnal^rneo^r$을 Ps-3와 혼합접종했을 때 접종근류균의 근류형성율은 8.5%, BCAC-4와 혼합접종한 경우는 4.3%였으나, 표지균주, Ps-3라 BCAC-4의 3 균주를 혼합접종했을 때는 2.9% 에 지나지 않았다. 2. 대두를 재배하지 않은 토양에 표지균주을 Ps-3와 혼합접종했을 때 접종근류균의 근류형성은 10.3%, BCAC-4와 혼합접종한 경우은 6%였으며, 표지균주와 Ps-3, BCAC-4의 3 균주를 혼합접종 했을 때 5.0%의 근류형성율을 나타냈다. 3. 혼합접종이 대두 생육상에 미치는 영향은 일반적으로 표지균주와 Ps-3의 혼합접종 처리구에서 가장 양호했다. 4. 항생제를 처리했을 때 5년 이상 대두재배 토양에서 접종근류균의 근류형성은 12.2-25.4% 였으며, 대두를 재배하지 않은 토양에서는 23.7-43.7% 였으나, 항생제 1,000ppm 처리구 에서 43.2%로 가장 높은 근류형성율을 보였다.