Sucrose synthesis and translocation in Zea mays L. during early growth, when subjected to N and K deficiency

J. Pretorius, D. Nieuwoudt, D. Eksteen
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引用次数: 14

Abstract

By omitting N and K either separately or in combination from the rooting medium, a nutrient stress condition was created with the aim of ascertaining whether sucrose synthesis or its translocation was linked to nutrient availability (N, K) in young maize plants. Sucrose and glucose levels as well as SPS activity measured over a six-week growth period showed no significant differences in leaves between the control and both the N- and K- stressed plants. Subsequently, the two top leaves of four-week old control and stressed plants were pulselabelled with [U-14C]-glucose for 24 hours and the translocation of radioactivity to stems and roots measured. K-stressed plants translocated less than 40 of the absorbed radioactivity from the leaves to the stems and roots and also tended to translocate more sucrose to the roots while much less was off-loaded in the storage tissue of the stems. Translocation of sucrose as well as radioactivity from leaves to stems and roots in N-stressed plants paralleled that of contro...
氮素和钾缺乏对玉米生长早期蔗糖合成和转运的影响
通过从生根培养基中单独或组合地省略N和K,创造了一个营养胁迫条件,目的是确定玉米幼苗中蔗糖合成或其转运是否与养分有效性(N, K)有关。在6周的生长期内,蔗糖和葡萄糖水平以及SPS活性的测量表明,对照和氮、钾胁迫植物的叶片没有显著差异。随后,用[U-14C]-葡萄糖脉冲标记4周龄对照和胁迫植株的两个顶叶24小时,并测量放射性向茎和根的转移。受钾胁迫的植株将吸收的放射性物质从叶片转移到茎和根的比例不到40%,并倾向于将更多的蔗糖转移到根,而在茎的储存组织中卸载的蔗糖要少得多。氮胁迫下植物叶片向茎和根的蔗糖转运及放射性与对照相似。
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