Metabolism of [ 14 C]GA 19 and [ 14 C]GA 53 by ecotypes of Betula pendula : the role of photoperiod

Sinet, Ethiopian Journal of Science Pub Date : 2005-10-14 DOI:10.4314/SINET.V28I1.18229

Berhanu Abraha Tsegay, J. Olsen, O. Junttila

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Abstract

In many temperate woody species, short days (SDs) induced growth cessation has been shown to be prevented by the application of gibberellins (GAs). Evidence has also been forwarded for the influence of photoperiod on the metabolism of applied GAs. Continuing with this line of research, we studied the metabolism of 14C-labelled GA 19 and GA 53 . [ 14 C]GA 19 and [ 14 C] A 53 were applied to the apices of the northern ecotype (67o N) and to the leaves of the southern ecotype (64o N) of Betula pendula Roth. under different photoperiods and at different times in order to compare metabolism during day and night periods. Assay of metabolites was made 10 h after application. Less than half of each applied GA was taken in by the plants and most of the activity was recovered from the application points. There was no clear effect of photoperiod on uptake of the GAs. After the HPLC analysis, most of the absorbed radiolabelled GAs were eluted as unmetabolised forms. However, significant levels of gibberellins A 20 , A 29 , A 1 , and A 8 were recovered as metabolites of [ 14 C]GA 19 both in apical stems and leaves. In 1SD and 4SD-treated plants, there was less metabolism of [ 14 C]GA 19 compared to LD-treated plants. The difference was due to reduced metabolism of 14 C]GA 19 by SD-treated plants during the night period. On the other hand, metabolism of [ 14 C]GA53 was very limited in all day-length treatments and during both, day and night periods. The most abundant metabolite was [ 14 C]GA 19 (10% of the activity in the samples). Key words/phrases : Conjugation, ecotype, gibberellins, metabolism, radioactivity SINET: Ethiopian Journal of Science Vol. 28 (1) 2005: 33–40

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[14c] ga19和[14c] ga53在钟桦生态型中的代谢:光周期的作用

在许多温带木本植物中，短日照(SDs)诱导的生长停止已被证明可以通过使用赤霉素(GAs)来预防。此外，还提出了光周期对外加气体代谢影响的证据。继续这条研究路线，我们研究了14c标记的GA 19和GA 53的代谢。[14 C]GA 19和[14 C] A 53分别施用于北纬670°的白桦北部生态型顶端和北纬640°的白桦南部生态型叶片上。在不同的光周期和不同的时间，以比较白天和黑夜期间的代谢。施用后10 h进行代谢物测定。每个施用的GA被植物吸收的不到一半，大部分活性从施用点恢复。光周期对气体吸收没有明显的影响。经过高效液相色谱分析，大多数吸收的放射性标记气体被洗脱为未代谢形式。然而，赤霉素a20、a29、a1和a8作为[14c] ga19的代谢物在顶端茎和叶片中均被恢复到显著水平。在1SD和4sd处理的植株中，与ld处理的植株相比，[14c]GA 19的代谢较少。这种差异是由于sd处理的植物在夜间减少了14c]GA 19的代谢。另一方面，[14 C]GA53的代谢在所有日间处理和白天和夜间处理期间都非常有限。最丰富的代谢物是[14 C]GA 19(占样品活性的10%)。关键词:偶联，生态型，赤霉素，代谢，放射性[j] .中国生物工程学报，Vol. 28 (1)， 2005: 33-40

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Sinet, Ethiopian Journal of Science

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