Endogenous gibberellins and inhibitors in caryopses of rye

Gibberellins A₈, A₁₆, A₂₄, and abscisic acid were identified by GC-MS of derivatized extracts from immature fruits of Secale cereale. Mature caryopses contained ABA and trans-ABA in a ratio 1:1 as well as 4′-dihydrophaseic acid. During milk ripeness a neutral GA conjugate was detected. Free GA, afforded by enzymatic hydrolysis of the conjugate, was chromatographically identified as GA₁₆     

The use of abscisic acid analogues to analyse the substrate selectivity of UGT71B6, a UDP-glycosyltransferase of Arabidopsis thaliana

This study analyses the activity of an Arabidopsis thaliana UDP-glycosyltransferase, UGT71B6 (71B6), towards abscisic acid (ABA) and its structural analogues. The enzyme preferentially glucosylated ABA and not its catabolites. The requirement for a specific chiral configuration of (+)-ABA was demonstrated through the use of analogues with the chiral centre changed or removed. The enzyme was able to accommodate extra bulk around the double bond of the ABA ring but not alterations to the 8'- and 9'-methyl groups. Interestingly, the ketone of ABA was not required for glucosylation. Bioactive analogues, resistant to 8'-hydroxylation, were also poor substrates for conjugation by UGT71B6. This suggests the compounds may be resistant to both pathways of ABA inactivation and may, therefore, prove to be useful agrochemicals for field applications.     

Metabolism of abscisic acid and the occurrence of epi-dihydrophaseic acid in Phaseolus vulgaris

When (±)-abscisic acid-[2-¹⁴C] or (±)-abscisic acid-[4′-¹⁸O] was fed to bean (Phaseolus vulgaris) shoots, phaseic acid (PA) and dihydrophaseic acid (DPA) were the major metabolites, while epi-dihydrophaseic acid (epi-DPA) appeared as a minor metabolite. In the acidic fraction the amount of epi-DPA ranged from 18 to 42% of the DPA content, in the conjugated form from 50 to 200%. The content of endogenous epi-DPA amounted to only 1–2% of that of the DPA. These data indicate that the applied abscisic acid is not metabolised in a manner identical with that of the endogenous material. DPA and epi-DPA were shown to be formed separately from PA and could not be inter-converted either by the extraction conditions employed or when fed to bean shoots during short term experiments.     

Gibberellin and abscisic acid effects on the activity of hydrolytic enzymes in de-embryonated barley seeds

The production of hydrolytic enzymes by embryo-less barley seeds in response to various gibberellins and abscisic acid was investigated. The data support the hypothesis that plant growth substances may affect the mechanisms of hydrolase production and secretion in cereal seeds in different ways and at different point.     

Identification of abscisic acid glucose ester,indole-3-acetic acid,zeatin and zeatin riboside in receptacles of pear

The identity of abscisic acid glucose ester, indole acetic acid, zeatin, and its riboside in pear receptacles was revealed by use of chromatographic, ultraviolet and mass spectral analysis.     

Identification of recombinant AtPYL2, an abscisic acid receptor,in E. coli using a substrate-derived bioactive small molecule,a biotin linker with alkyne and amino groups,and a protein cross-linker

Target protein identification of bioactive small molecules is one of the most important research in forward chemical genetics. The affinity chromatography technique to use a resin bound with a small molecule is often used for identification of a target protein of a bioactive small molecule. Here we report a new method to isolate a protein targeted with a bioactive small molecule using a biotin linker with alkyne and amino groups, protein cross-linker containing disulfide bond, and a bioactive small molecule with an azido group (azido probe). After an azido probe is associated with a target protein, the complex of a target protein and azido probe is covalently bound through the biotin linker by azide-alkyne Huisgen cycloaddition and protein cross-linker containing disulfide bond. This ternary complex is immobilized on an affinity matrix with streptavidin, and then the target protein is selectively eluted with a buffer containing a reducing agent for cleavage of disulfide bonds. This method uses a probe having an azido group, which a small functional group, and has the possibility to be a solution strategy to overcome the hindrance of a functional group introduced into the probe that reduces association a target protein. The effectiveness of the method in this study was shown using linker 1, 3′-azidoabscisic acid 3, and protein cross-linker containing a disulfide bond (DTSSP 5).     

Prostaglandin biosynthesis by the rat uterus during the oestrus cycle, temporal correlation with plasma oestradiol and progesterone concentrations, identification of 6 keto PGF1α as the major metabolite

Prostaglandin biosynthesis was studied in the rat uterus during the oestrous cycle. Uterine homogenates were incubated for 20 minutes in the presence of exogenous substrate (2.10⁻⁵M). PGF_2α and PGE₂ were measured by R.I.A.. A sharp peak PGF_2α and a smaller peak of PGE₂ were observed at prooestrus, 20 h. Another small PGE₂ peak occurred at dioestrus II, 15 h. The lowest values of both PGs were found on dioestrus, 15 h. Plasma oestradiol concentration were highest at proestrus, 15 h and 20 h. A sharp progesterone peak occurred at prooestrus, 20 h. The PGF_2α peak is next to the oestradiol peak and is superimposable or lags slightly beyond the progesterone peak.Incubation with ¹⁴C arachidonic acid and subsequent analysis of extracts by TLC and scanning showed that the major metabolite is PGI₂, identified as 6 keto PGF_1α. The conversion rate of arachidonic acid into 6 keto PGF_1α is 5 times higher than into PGF_2α. 6 keto PGF_1α was further identified by GC/MS. No significant difference was observed between 6 keto PGF_1α production during oestrus and dioestrus.     

The identification and quantification of three new 6alpha-hydroxylated corticosteroids in human neonatal urine

The 24 hours urines of six two days old fullterm newborn infants were investigated for polar corticosteroids. 6alpha-hydroxy-tetrahydrocortisone, 6alpha-hydroxy-20alpha-cortolone and 6alpha-hydroxy-20beta-cortolone were identified by gas chromatographic-mass spectrometric comparison of the urinary steroids to compounds synthesized previously. These 6alpha-hydroxylated corticosteroids as well as seven other polar corticosteroids were quantified by gas chromatography or mass fragmentography. It was shown that the newly identified steroids constituted a quantitatively important part of the neonatal urinary corticosteroids. The unconjugated- and glucuronic acid conjugated steroids were quantified separately. It was found that the extent of glucuronoconjugation decreased with increasing polarity of the steroid moiety.