Yucasin is a potent inhibitor of YUCCA,a key enzyme in auxin biosynthesis

Indole‐3–acetic acid (IAA), an auxin plant hormone, is biosynthesized from tryptophan. The indole‐3–pyruvic acid (IPyA) pathway, involving the tryptophan aminotransferase TAA1 and YUCCA (YUC) enzymes, was recently found to be a major IAA biosynthetic pathway in Arabidopsis. TAA1 catalyzes the conversion of tryptophan to IPyA, and YUC produces IAA from IPyA. Using a chemical biology approach with maize coleoptiles, we identified 5–(4–chlorophenyl)‐4H‐1,2,4–triazole‐3–thiol (yucasin) as a potent inhibitor of IAA biosynthesis in YUC‐expressing coleoptile tips. Enzymatic analysis of recombinant AtYUC1‐His suggested that yucasin strongly inhibited YUC1‐His activity against the substrate IPyA in a competitive manner. Phenotypic analysis of Arabidopsis YUC1 over‐expression lines (35S::YUC1) demonstrated that yucasin acts in IAA biosynthesis catalyzed by YUC. In addition, 35S::YUC1 seedlings showed resistance to yucasin in terms of root growth. A loss‐of‐function mutant of TAA1, sav3–2, was hypersensitive to yucasin in terms of root growth and hypocotyl elongation of etiolated seedlings. Yucasin combined with the TAA1 inhibitor l –kynurenine acted additively in Arabidopsis seedlings, producing a phenotype similar to yucasin‐treated sav3–2 seedlings, indicating the importance of IAA biosynthesis via the IPyA pathway in root growth and leaf vascular development. The present study showed that yucasin is a potent inhibitor of YUC enzymes that offers an effective tool for analyzing the contribution of IAA biosynthesis via the IPyA pathway to plant development and physiological processes.     

Membrane-bound glucosamine acetyltransferase in coleoptile segments of Avena sativa

The in vivo metabolism of D-[U-¹⁴C]glucosamine and the in vitro properties of glucosamine acetyltransferase (EC 2.3.1.3), the first committed enzyme in the metabolism of exogenously supplied D-glucosamine, were studied in coleoptile segments of Avena sativa L. cv. Sole II. D-[U-¹⁴C]glucosamine was taken up by oat coleoptile segments and sequentially metabolised to radioactive N-acetylglucosamine, N-acetylglucosamine 6-P, N-acetylglucosamine 1-P, UDP-N-acetylglucosamine and UDP-N-acetylgalactosamine. In addition, N-acetylglucosamine residues were incorporated into glycoproteins and glycolipids of the cells. All glucosamine acetyltransferase activity was found to be membrane-bound. The enzyme was solubilized by either digitonin or CHAPS. The specificities and the kinetics of the membrane-bound and soluble glucosamine acetyltransferase were determined. The effects of ions, nucleotides, nucleoside diphosphate amino sugars, coenzymes and group-specific chemical probes on the rate of membrane-bound and CHAPS-solubilized enzyme were investigated. Our data indicate that UDP-N-acetylglucosamine and UDP-N-acetylgalactosamine do not exert a feed-back control on the glucosamine acetyltransferase either in vivo or in vitro. Further, some nucleotides and the metal ions Cu²⁺, Zn²⁺, Fe²⁺, Fe³⁺ and Co²⁺ affect the activity of the enzyme in vitro.     

Effects of calmodulin antagonists on auxin-stimulated proton extrusion in Avena sativa coleoptile segments

The effect of the 5 calmodulin (CaM) antagonists trifluoperazine (TFP). compound 48/80, N-(6-aminohexyl)-naphthalenesulfonamtde (W-5), N-(6-aminohexyl)-5-chloro-1-naphthalenesulfonamide (W-7), and calmidazolium on auxin-dependent medium acidification was investigated in abraded segments of Avena sativa L. cv. Victory I. Buffering capacity, Asn content, and changes in pH of bathing solutions were measured in the presence of these inhibitors. When coleoptiles were treated with TFP or compound 48/80, the Asn content and the buffering capacity increased, thus suggesting that plasma membrane permeability was modified. On the contrary. the effect of calmidazolium, W-5. and W-7 on Asn release and buffering capacity was rather low; only small effects being observable at the highest concentration employed. Calmidazolium and W-7 strongly inhibited auxin-dependent medium acidification. W-5 did not affect medium acidification. The specificity of these CaM antagonists and their effects on medium acidification are discussed. The data adduced is consistent with the working hypothesis which postulates an essential role for the Ca²⁺-CaM system on auxin-dependent medium acidification.     

The effect of detergent treatment on methylene blue sensitized cytochrome b photoreduction in fractions from corn coleoptiles

It was previously demonstrated that photoexcited methylene blue can act as electron donor in red light induced reduction of a particulate b-type cytochrome in fraction from etiolated corn coleoptiles (Zea mays L. WF 9 × Bear 38). It was postulated that the same cytochrome as the one active in blue light photoprocesses was involved. This study describes the effect of detergents upon such red light induced reductions in corn coleoptile preparations fractionated after differential centrifugation into 9 KP, 21 KP and 50 KP (500–9000 g pellet, 9000–21,000 g pellet and 21,000–50,000 g pellet, spun for 20, 20, and 45 min, respectively). Both Triton X-100 (more effective) and deoxycholate (less effective and somewhat destructive) could be used as solubilizers if concentrations above the critical micellar concentration were chosen. Tween 40 was ineffective and dodecyl sulphate affected the cytochrome so that it lost its accessibility to electrons from photoexcited methylene blue. The recovery, measured as the ratio between light induced absorbance change (LIAC) in the Soret region after and before solubilization, was highest in 9 KP (70%) and lower in 21 and 50 KP fractions (50% and 43% respectively). The band in the Soret region in light minus dark spectra had its peak at longer wavelengths compared to the dithionite reduced minus no addition absorption difference band, whether the sample was solubilized or not. Similar results were obtained when the material was separated on a discontinuous sucrose gradient (15/28/33/45% w/w sucrose). In such a separation, the distribution of LIAC between fractions (collected at the interfaces) was about the same after solubilization as before (solubilization brought about a slight shift towards heavier fractions). The ratios of LIAC to the dithionite reduced minus no addition absorbance difference decreased upon detergent treatment. The LIAC still had its peak at longer wavelengths compared to the peak obtained upon dithionite reduction. The usefulness of detergents in the purification of the particulate b-type cytochrome is discussed.