Metabolism of Tritiated Gibberellin A<sub>20</sub> in Maize

Rood, Stewart B.; Koshioka, Masaji; Douglas, Trevor J.; Pharis, Richard P.

doi:10.1104/pp.70.6.1614

Cited by 23 publications

(7 citation statements)

References 6 publications

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“…Whereas these compounds have been previously observed following [3H]GA20 feeds (9,23), the C/D ring rearrangement proceeds readily under acidic conditions (9), and in the present study, extracts were repeatedly exposed to acetic acid and HCOOH during chromatography and evaporation of fractions.…”

Section: Supported By Natural Sciences and Engineering Research Councilmentioning

confidence: 99%

“…Peak IV elutes after [3H]GA20 (Fig. 6) and may consist of one or more conjugates of C/D R [3H]GA2o, since C/DR [3HJGA2o elutes 4.6 min after [3H]GA20 (23). The presence of free and conjugated C/D R [3H]GA2o may be an artifact.…”

Section: Supported By Natural Sciences and Engineering Research Councilmentioning

confidence: 99%

“…An on-line HPLC-RC (Berthold) was used to detect radioactive peaks anid aliquots of HPLC fractions were also taken for liquid scintillation spectrometry. More complete descriptions ofHPLC-RC and subsequent GLC-RC characterization on some of these samples, and on other maize samples after [3H]GA2o feeds, have already been published (22,23 GAs and their purported conjugates.…”

Section: Supported By Natural Sciences and Engineering Research Councilmentioning

confidence: 99%

“…Although one of the native GAs fed to pea (GA20) is a precursor of GA, in one pea genotype (J. B. Reid, University of Tasmania, personal communication) and in other systems (23,30), in dwarf pea GA20 apparently does not form GA,, but is converted to GA29 through 2(i-hydroxylation (10), a step which leads to a high degree ofbiological inactivation. Thus, it is possible that the apparent reversible conjugation observed by Barendse et al (2) may have been an artifact brought about through the exogenous application of a foreign GA (e.g.…”

Section: Supported By Natural Sciences and Engineering Research Councilmentioning

confidence: 99%

“…GAs and are readily taken up and metabolized by maize (22,23, and Rood and Pharis, unpublished). Both occur in the GA conversion sequences known for higher plants at positions which provide a reasonable number of acidic products, as well as GA4 and GA20 per se, which could be conjugated during seed maturation.…”

Section: Supported By Natural Sciences and Engineering Research Councilmentioning

confidence: 99%

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Reversible Conjugation of Gibberellins In Situ in Maize

Rood

Pharis²,

Koshioka³

1983

Plant Physiol.

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Gibberellins [HJGA4 (133 Curies per millimole) and I3HIGAn (2.36 Curies per millimole) were injected into the shanks of maize (Zea mays L.) cobs during rapid grain filling and mature seeds were subsequently harvested. Extracts of mature, dry seeds from 1980 feeds yielded only 20 to 30% of the 3H radioactivity in acidic, ethyl acetate-soluble form, and this was principally associated with the precursor, with lesser amounts of the major metabolite, [3HIGA, (putative to re-examine the possibility that reversible conjugation of GAs occurs in maturing/germinating seeds.In the present paper, we examine the metabolism of two [3H]

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Section: Supported By Natural Sciences and Engineering Research Councilmentioning

confidence: 99%

Section: Supported By Natural Sciences and Engineering Research Councilmentioning

confidence: 99%

Section: Supported By Natural Sciences and Engineering Research Councilmentioning

confidence: 99%

Section: Supported By Natural Sciences and Engineering Research Councilmentioning

confidence: 99%

Section: Supported By Natural Sciences and Engineering Research Councilmentioning

confidence: 99%

See 3 more Smart Citations

Reversible Conjugation of Gibberellins In Situ in Maize

Rood

Pharis²,

Koshioka³

1983

Plant Physiol.

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Reverse phase high pressure liquid chromatographic separation of permethylated free and glucosylated gibberellins: A method for the analysis of gibberellin metabolites

Schneider

Schaller

Jensen

1994

Phytochemical Analysis

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A new strategy for simultaneous analysis of both free gibberellins (GAS) and gibberellin-0-glucosides (GA-Oglucosides) in plant extracts is described. The procedure, which avoids liquid-liquid partitioning comprises the following sequential steps, applied to the aqueous residue of an 80% aqueous methanol extract: (a) ion exchange chromatography; (b) permethylation; (c) silica gel chromatography; (d) preparative reverse phase high pressure liquid chromatography; (e) gas chromatography-mass spectrometry. The method has been used to analyse the acidic metabolites of [17-zH2]GA20, applied to normal and dwarf-1 Zea mays. In normal plants the label was found to be incorporated into GAPlant material and treatment with [17-2H2]CA20. Dwarf-I and normal (hybrids) seedlings of Zea mays L. were grown in a greenhouse (HallelS., Germany) for two weeks. The dwarf-1 seed material was obtained from propagating dwarf-1 for 3 generations. The seedlings at the two leaf stage were injected above the coleoptilar node with 3.0 pg [17-'H2]GAzo per plant dissolved in 10 pL EtOH: H 2 0 (1 : 1, v h ) . Three seedlings each of normal and dwarf-1 were used and kept after treatment for 24 h in the greenhouse.Extraction and purification. The treated seedlings were excised at the coleoptilar node and the shoots (normal, 12.9 g; dwarf-1,7.1 g) were ground in dry ice, following which 75 mL of 80% aqueous MeOH was added and the mixture kept for 24 h at 5°C. The slurry was filtered and the solid residue was extracted twice more with 40 mL of 80% aqueous MeOH for 4 h at room temperature. The combined extracts were taken to the aqueous phase and then extracted twice

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