Walter Van Dongen

Endocytic and Secretory Traffic in Arabidopsis Merge in the Trans-Golgi Network/Early Endosome, an Independent and Highly Dynamic Organelle

This study examines secretory and endocytotic trafficking in Arabidopsis by tracking the movement of a brassinosteroid receptor and a boron exporter through the endomembrane system. Both endocytotic and secretory cargo travel through the trans-Golgi network/early endosome (TGN/EE), and the TGN/EE is shown to be an independent organelle that only transiently associates with the Golgi. Plants constantly adjust their repertoire of plasma membrane proteins that mediates transduction of environmental and developmental signals as well as transport of ions, nutrients, and hormones. The importance of regulated secretory and endocytic trafficking is becoming increasingly clear; however, our knowledge of the compartments and molecular machinery involved is still fragmentary. We used immunogold electron microscopy and confocal laser scanning microscopy to trace the route of cargo molecules, including the BRASSINOSTEROID INSENSITIVE1 receptor and the REQUIRES HIGH BORON1 boron exporter, throughout the plant endomembrane system. Our results provide evidence that both endocytic and secretory cargo pass through the trans-Golgi network/early endosome (TGN/EE) and demonstrate that cargo in late endosomes/multivesicular bodies is destined for vacuolar degradation. Moreover, using spinning disc microscopy, we show that TGN/EEs move independently and are only transiently associated with an individual Golgi stack.

SPEECHLESS integrates brassinosteroid and stomata signalling pathways

Stomatal formation is regulated by multiple developmental and environmental signals, but how these signals are integrated to control this process is not fully understood. In Arabidopsis thaliana, the basic helix-loop-helix transcription factor SPEECHLESS (SPCH) regulates the entry, amplifying and spacing divisions that occur during stomatal lineage development. SPCH activity is negatively regulated by mitogen-activated protein kinase (MAPK)-mediated phosphorylation. Here, we show that in addition to MAPKs, SPCH activity is also modulated by brassinosteroid (BR) signalling. The GSK3/SHAGGY-like kinase BIN2 (BR INSENSITIVE2) phosphorylates residues overlapping those targeted by the MAPKs, as well as four residues in the amino-terminal region of the protein outside the MAPK target domain. These phosphorylation events antagonize SPCH activity and limit epidermal cell proliferation. Conversely, inhibition of BIN2 activity in vivo stabilizes SPCH and triggers excessive stomatal and non-stomatal cell formation. We demonstrate that through phosphorylation inputs from both MAPKs and BIN2, SPCH serves as an integration node for stomata and BR signalling pathways to control stomatal development in Arabidopsis.

Melatonin : Occurrence and daily rhythm in Chenopodium rubrum

Abstract The occurrence of melatonin (5-methoxy-N-acetyltryptamine), a common animal hormone, in extracts of the above-ground parts of 15-day-old plants of Chenopodium rubrum was confirmed by liquid chromatography/tandem mass spectrometry. Using both this method and radioimmunoassay, changes in melatonin content during a 12 hr light/12 hr dark cycle were demonstrated. The melatonin concentration remained low or undetectable during the light period and increased during the darkness reaching a maximum at hours 4–6 of the dark period before rapidly decreasing. Both the nocturnal increase and the range of concentration are similar to those known in animals.

Micro and capillary liquid chromatography-tandem mass spectrometry : a new dimension in phytohormone research

Abstract Quantification of phytohormones in small amounts of material requires sensitive analytical techniques. The analysis of indoles and cytokinins using electrospray tandem mass spectrometry (MS–MS) was described earlier. Gradient elution resulted in an improved detection limit. Micro liquid chromatography (LC) and capillary LC, in combination with large volume injections, resulted in a 200 to 1200 times net increase in sensitivity in comparison with conventional isocratic LC–MS–MS. We obtained a linearity range between 1 fmol and 5 pmol for capillary LC–MS–MS and between 5 fmol and 1 nmol for micro LC–MS–MS.

Development of an On-Line SPE-LC–ESI-MS Method for Urinary Nucleosides: Hyphenation of Aprotic Boronic Acid Chromatography with Hydrophilic Interaction LC–ESI-MS

The development of an on-line automated SPE-HPLC--ESI-MS method is described for targeted metabolomic analysis of urinary modified nucleoside levels. The setup comprises a boronate affinity column as a trapping device, a hydrophilic interaction chromatography (HILIC) separation and information-dependent MS detection modes. The system was optimized using standards and tested on biological samples, detecting a number of modified nucleosides. Other urinary biomarkers could also be analyzed by the system developed: for example, the urinary nucleobases were also available for analysis. A simultaneous creatinine-monitoring experiment was also demonstrated to be viable when utilizing the method, which is of benefit as creatinine is a urinary normalizing factor.

EXPOSURE PATTERNS OF PERFLUOROOCTANE SULFONATE IN AQUATIC INVERTEBRATES FROM THE WESTERN SCHELDT ESTUARY AND THE SOUTHERN NORTH SEA

Over the past decades little research has been conducted on the environmental behavior and effects of fluorinated organochemicals (FOCs). Recently it has been reported that perfluorooctane sulfonic acid (PFOS) is occurring worldwide. Little is known about the PFOS levels in organisms originating from the southern North Sea and the Western Scheldt estuary. In this study, we determined, for the first time, the PFOS-exposure levels in Crangon crangon, Carcinus maenas, and Asterias rubens from these ecosystems. Concentrations on a wet-weight basis in soft tissues of shrimp, crab, and starfish ranged from 19 to 520 ng/g, from 24 to 877 ng/g, and from 9 to 176 ng/g, respectively. These results show the existence of a PFOS pollution gradient in organisms along the Western Scheldt estuary, with the highest concentrations near Antwerp. The range of PFOS levels in shrimp and crab are slightly higher in coastal regions compared with sampling sites in open water. This study shows widespread distribution of PFOS in the Belgian and Dutch marine and estuarine environment at rather high concentrations.

Metabolic Fate of Jasmonates in Tobacco Bright Yellow-2 Cells

Jasmonic acid and methyl jasmonate play an essential role in plant defense responses and pollen development. Their levels are temporarily and spatially controlled in plant tissue. However, whereas jasmonate biosynthesis is well studied, metabolic pathways downstream of jasmonic acid are less understood. We studied the uptake and metabolism of jasmonic acid and methyl jasmonate in tobacco (Nicotiana tabacum) Bright Yellow-2 suspension culture. We found that upon uptake, jasmonic acid was metabolized to its Glc and gentiobiose esters, and hydroxylation at C-11 or C-12 occurred. Free hydroxylated jasmonates were the preferential fraction of the culture medium. Upon hydrolysis of methyl jasmonate to jasmonic acid, a similar set of conversions occurs. In contrast to jasmonic acid, none of its derivatives interfere with the G2/M transition in synchronized tobacco Bright Yellow-2 cells.

Ion-pair liquid chromatography–electrospray mass spectrometry for the analysis of cyclic nucleotides

An LC-MS method has been developed combining ion-pair chromatography with an electrospray interface linking microbore and capillary HPLC to mass spectrometry. Separation of cyclic nucleotides on C18 reversed-phase columns, using tetrabutylammonium bromide as an ion pairing agent was evaluated with different mobile phase compositions. It was found that low ion-pairing agent concentration (50-500 microM) used in combination with low flow-rates (5-10 microl min(-1)) allowed the system to operate for up to several days without observing a reduced signal caused by source pollution. The loss of sensitivity expected in ion-pair chromatography could be remedied by using a 2-propanol coaxial sheath flow. Optimal conditions for negative ion electrospray resulted in a linear detection response in the femtomole to picomole range. Using biological samples this method was evaluated and compared with a classical ion-suppression RP-HPLC method using UV detection.

Identification of in vitro phosphorylation sites in the Arabidopsis thaliana somatic embryogenesis receptor-like kinases.

The Arabidopsis thaliana somatic embryogenesis receptor‐like kinase (SERK) family consists of five leucine‐rich repeat receptor‐like kinases (LRR‐RLKs) with diverse functions such as brassinosteroid insensitive 1 (BRI1)‐mediated brassinosteroid perception, development and innate immunity. The autophosphorylation activity of the kinase domains of the five SERK proteins was compared and the phosphorylated residues were identified by LC‐MS/MS. Differences in autophosphorylation that ranged from high activity of SERK1, intermediate activities for SERK2 and SERK3 to low activity for SERK5 were noted. In the SERK1 kinase the C‐terminally located residue Ser‐562 controls full autophosphorylation activity. Activation loop phosphorylation, including that of residue Thr‐462 previously shown to be required for SERK1 kinase activity, was not affected. In vivo SERK1 phosphorylation was induced by brassinosteroids. Immunoprecipitation of CFP‐tagged SERK1 from plant extracts followed by MS/MS identified Ser‐303, Thr‐337, Thr‐459, Thr‐462, Thr‐463, Thr‐468, and Ser‐612 or Thr‐613 or Tyr‐614 as in vivo phosphorylation sites of SERK1. Transphosphorylation of SERK1 by the kinase domain of the main brassinosteroid receptor BRI1 occurred only on Ser‐299 and Thr‐462. This suggests both intra‐ and intermolecular control of SERK1 kinase activity. Conversely, BRI1 was transphosphorylated by the kinase domain of SERK1 on Ser‐887. BRI1 kinase activity was not required for interaction with the SERK1 receptor in a pull down assay.

Proteomics-based identification of low-abundance signaling and regulatory protein complexes in native plant tissues

Owing to the low abundance of signaling proteins and transcription factors, their protein complexes are not easily identified by classical proteomics. The isolation of these protein complexes from endogenous plant tissues (rather than plant cell cultures) is therefore an important technical challenge. Here, we describe a sensitive, quantitative proteomics-based procedure to determine the composition of plant protein complexes. The method makes use of fluorophore-tagged protein immunoprecipitation (IP) and label-free mass spectrometry (MS)-based quantification to correct for nonspecifically precipitated proteins. We provide procedures for the isolation of membrane-bound receptor complexes and transcriptional regulators from nuclei. The protocol consists of an IP step (∼6 h) and sample preparation for liquid chromatography-tandem MS (LC-MS/MS; 2 d). We also provide a guide for data analysis. Our single-step affinity purification protocol is a good alternative to two-step tandem affinity purification (TAP), as it is shorter and relatively easy to perform. The data analysis by label-free quantification (LFQ) requires a cheaper and less challenging experimental setup compared with known labeling techniques in plants.