14C-寡糖在西瓜幼苗植株体内吸收传导和分布

高等学校化学学报 ›› 2004, Vol. 25 ›› Issue (12): 2273.

¹⁴C-寡糖在西瓜幼苗植株体内吸收传导和分布

冯建军¹, 李健强¹, 刘西莉¹, 宁君², 孔繁祚²

1. 中国农业大学农学与生物技术学院, 北京100094;
2. 中国科学院生态环境研究中心, 北京100085

收稿日期:2003-12-11 出版日期:2004-12-24 发布日期:2004-12-24
基金资助:
国家自然科学基金(批准号:30070864);北京市自然科学基金(批准号:6021004)资助

Uptake, Translocation and Distribution of ¹⁴C-Labelled Oligosaccharides in Watermelon Seedling

FENG Jian-Jun¹, LI Jian-Qiang¹, LIU Xi-Li¹, NING Jun², KONG Fan-Zuo²

1. College of Agriculture and Biotechnology, China Agricultural University, Beijing 100094, China;
2. Research Center for Eco-Environmental Sciences, Chinese Academy of Sciences, Beijing 100085, China

Received:2003-12-11 Online:2004-12-24 Published:2004-12-24

摘要/Abstract

摘要： 应用同位素示踪技术研究了¹⁴C-寡糖在西瓜幼苗植株体内的吸收、传导和分布行为.自显影结果显示,寡糖通过处理叶部或根部后能够被西瓜幼苗植株快速吸收,在叶片中的传导表现为从叶缘向叶片中心分布的趋势.将叶部处理8h和根部处理24h后,¹⁴C-寡糖即可以传导和分布到西瓜幼苗的整个植株体内,证明¹⁴C-寡糖在西瓜幼苗植株体内具有较强的扩散和向基或向顶传导特征.结果表明,处理叶部4～120h时,根系、茎与未被直接处理的叶片等其它部位的放射性比活度分别由0.18×10⁵和23.08×10⁵Bq/kg变化为0.32×10⁵和3.02×10⁵Bq/kg,总体上表现出向基传导和分布的态势.处理根部4～120h时,西瓜幼苗植株根系、茎部、子叶和真叶中放射性比活度分别由22.23×10⁵,2.23×10⁵,8.33×10⁵和12.78×10⁵Bq/kg变化为431.11×10⁵,42.23×10⁵,65.57×10⁵和78.89×10⁵Bq/kg,表现出¹⁴C-寡糖在西瓜幼苗植株体内向顶传导作用和在地上部的积累态势很强.

关键词: ¹⁴C-寡糖, 同位素示踪, 药理学, 西瓜幼苗, 内吸传导

Abstract: Uptake, translocation, and distribution of ¹⁴C-labelled oligosaccharides in watermelon seedling were investigated by the means of radioactive isotope tracer. The autoradiograph experiment showed that oligosaccharides could fast be absorbed by the watermelon seedling after it was supplied through leaf or root. The translocation of the oligosaccharides in leaf trended from the margin to the center. After treatment by leaf-dripping for 8 h and treatment by root-dipping for 24 h, the oligosaccharides translocated and distributed in whole watermelon seedling, indicating that ¹⁴C-labelled oligosaccharides have a strong ability to spread and translocate downwards or upwards in the seedling. During 4 h to 120 h after the treatment by leaf-dripping, the specific activity of root, others(stem and indirectly treated leaf in the whole seedling) transformed from 0.18×10⁵ and 23.08×10⁵ Bq/kg to 0.32×10⁵ and 3.02×10⁵ Bq/kg, respectively. As a whole, the trend of distribution and downward translocation was weak. During 4 h to 120 h after the treatment by root-dipping, the specific activity of root, stem, cotyledon, and true leaf transformed from²2.23×10⁵, 2.23×10⁵, 8.33×10⁵ and 12.78×10⁵ Bq/kg to 431.11×10⁵, 42.23×10⁵, 65.57×10⁵ and 78.89×10⁵ Bq/kg, respectively, suggesting a strong accumulation trend above the ground and upward translocation activity of ¹⁴C-oligosaccharides in watermelon seedling.

Key words: C-labelled oligosaccharides, Radioactive isotope tracer, Pharmacology, Watermelon seedling, Uptake and translocation

中图分类号:

S482.2

TrendMD:

冯建军, 李健强, 刘西莉, 宁君, 孔繁祚. ¹⁴C-寡糖在西瓜幼苗植株体内吸收传导和分布. 高等学校化学学报, 2004, 25(12): 2273.

FENG Jian-Jun, LI Jian-Qiang, LIU Xi-Li, NING Jun, KONG Fan-Zuo . Uptake, Translocation and Distribution of ¹⁴C-Labelled Oligosaccharides in Watermelon Seedling. Chem. J. Chinese Universities, 2004, 25(12): 2273.

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¹⁴C-寡糖在西瓜幼苗植株体内吸收传导和分布

Uptake, Translocation and Distribution of ¹⁴C-Labelled Oligosaccharides in Watermelon Seedling

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