Korean Journal of Plant Tissue Culture (식물조직배양학회지)

The Korean Society of Plant Biotechnology (한국식물생명공학회)
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Effects of Inverted Incubation on Adventitious Root Formation in Epicotyl Cuttings of Vigna angularis Owhiet Ohashi

팥의 유경절편에서 부정근형성에대한 도립배양의 효과

  • Published : 1998.03.01
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Abstract

Disbudded epicotyl cuttings from light-grown 6-day-old seedings of Vigna angularis Owhi et Ohashi were preincubated in $2\;\times\;10^{-4}M$ IAA solution for 48 hr to promote adventitious root formation in upright or inverted direction and then incubated in upright direction for 96 hr. Adventitious root formation occurred only at the morphological base of the cuttings which were preincubated in upright direction, while at the both ends in inverted direction. IAA treatment enhanced the adventitious root formation in all cuttings regardless of their orientation during preincubation. To elucidate localized root development, the activity of enzymes involved in root initiation and development was measured 24 hr, 48 hr, and 148 hr after epicotyl incubation. IAA oxidase, peroxidase and catalase were assayed in the apical, middle and basal segment of the epicotyls, and their fresh weight and length were measured. Elongation occurred the most in the upper segment of the epicotyl while fresh weight gain was the most in the basal segment. At root initiation phase, 24 hr after incubation IAA peroxidase and catalase activities appeared high at rooting zone while IAA oxidase activity was low at both ends, IAA oxidase and peroxidase activities declined at the rooting zone during the adventitious root formation at 48 ht. Inversion of cuttings during preincubation caused a chrange of enzyme activities along their epicotyl cuttings. Only peroxidase activity showed a high correlation with root initiation. Therefore, the biochemical change is highly correlated with change in IAA level in the rooting zone of the epicotyl, resulting in root formation in unusual rooting zone of epicotyl.

부정근발생에 관한 도립 및 직립배양의 영향을 구명하기 위하여 6일간 자란 팥의 유경 절편을 사용하였다. $2\times10$^{-4}M$ IAA 용액을 48시간 처리할 때에 절편의 위치를 직립 또는 도립으로 배양 후 96시간 직립으로 배양하였다. 48시간 처리시 직립배양하면 부정근의 형성은 형태학적 기부에서만 발생하지만, 도립 전처리 배양을 하면 유경절편의 양끝에서 부정근이 발생하였다. IAA 전처리는 절편의 방향과 관계없이 부정근 형성을 촉진시켰다. 부정근 발생시기에 유경절편내의 생화학적 변화를 구명하기 위하여 직립배양 및 도립배양을 한 후 부정근 발생 단계별로 24시간, 48시간, 148시간 후 절편을 상부, 중부, 하부로 등분하여 부정근 발생에 수반되는 효소활성, 절편의 길이 신장 및 생중량을 측정하였다. 절편의 길이 신장은 절편의 상부에서 높게 나타났고 생중량은 발근부위에서 높게 나타났다. peroxidase을 catalase 활성은 부정근원기의 형성단계인 24시간에 절편의 발근부위에서 높게 나타났고 이에 비해 IAA oxidase는 양쪽 기부에서 낮았다. 그리고 IAA oxidase와 peroxidase 활성은 48시간 배양인 부정근의 형성동안 발근 부위에서 감소하였다. 도립전처리 유경 절편에 따라서 효소활성의 변화가 일어났으며 peroxidase의 활성은 부정근원기형성과 밀접한 관계를 나타내었다. 따라서 생화학적인 변화는 유경의 발근영역에서 IAA의 수준의 변화와 밀접하게 관련되어 특정부위에서의 부정근 형성을 유도하는 것으로 판단된 것이다.

Keywords

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