Abstract.A cell-free system capable of converting [-14C]geranylgeranyl diphosphate to ent- [14C]kaurene and to an unidentified acid-hydrolysable compound was obtained from the basal portions of 5-d-old shoots of wheat seedlings (Triticum aestivum L.). By means of marker enzyme activities, the synthesis of ent-kaurene and the unknown compound could be quantitatively assigned to a plastid fraction obtained by Percoll-gradient centrifugation of the homogenate. The enzyme activities were located within the plastids, probably in the stroma, because they withstood trypsin treatment of the intact plastids, and the plastids had to be broken to release the activity, which was then obtained in soluble form. Plastid membranes had no activity. Plastid stroma preparations obtained from pea (Pisum sativum L.) shoot tips and pumpkin (Cucurbita maxima L.) endosperm also yielded ent-kaurene synthetase activity, but did not form the unknown compound. The exact nature of the active plastids was not ascertained, but the use of methods for proplastid isolation was essential for full activity, and the active tissues are all known to contain high proportions of proplastids, developing chloroplasts or leucoplasts. We therefore believe that ent-kaurene synthesis may be limited to these categories. Mature chloroplasts from the wheat leaves did not contain ent-kaurene synthetase activity and did not yield the unknown component. Incorporation of [14C]geranylgeranyl diphosphate into ent-[14C]kaurene and the unknown component was assayed by high-performance liquid chromatography with on-line radiocounting. ent-[14C]Kaurene was identified by Kovats retention index and full mass spectra obtained by combined gas Abbreviations: ADH = alcohol dehydrogenase; AMO 1618 = 2'-isopropyl-4'-(trimethylammonium chloride)-5'-methylphenyl piperidine-1-carboxylate; BSA = bovine serum albumin; DTT = dithiothreitol; GA. = gibberellin A.; GAPDH = NADP+-glyceraldehyde 3-phosphate dehydrogenase; GC-MS = combined gas chromatography-mass spectrometry; GGPP = all trans-isomer of geranylgeranyl diphosphate; KS = ent-kaurene synthetase; MDH = malate dehydrogenase; MAA = mevalonate activating activity; SOR= shikimate oxidoreductase Correspondence to: J.E. Graebe; FAX: 49 (551)39 78 23 chromatography-mass spectrometry. The unknown component was first believed to be copalyl diphosphate, because it yielded a compound on acid hydrolysis, which migrated like copalol on high-performance liquid chromatography and gave a mass spectrum very similar to that of authentic copalol. However, differences in the mass spectrum and in retention time on capillary gas chromatography excluded identity with copalol. Furthermore, the unhydrolysed compound was not converted to ent-kaurene by a cell-free system from C. maxima endosperm as copalyl diphosphate would have been.
Schizophrenia is characterized by positive, negative, and cognitive symptoms. While positive symptoms occur periodically during psychotic exacerbations, negative and cognitive symptoms often emerge before the first psychotic episode and persist with low functional outcome and poor prognosis. This review article outlines the importance of modern functional magnetic resonance imaging techniques for developing a stratified therapy of schizophrenic disorders. Functional neuroimaging evidence on the neural correlates of positive and particularly negative symptoms and cognitive deficits in schizophrenic disorders is briefly reviewed. Acute dysregulation of dopaminergic neurotransmission is crucially involved in the occurrence of psychotic symptoms. However, increasing evidence also implicates glutamatergic pathomechanisms, in particular N-methyl-d-aspartate (NMDA) receptor dysfunction in the pathogenesis of schizophrenia and in the appearance of negative symptoms and cognitive dysfunctions. In line with this notion, several gene variants affecting the NMDA receptor’s pathway have been reported to increase susceptibility for schizophrenia, and have been investigated using the imaging genetics approach. In recent years, several attempts have been made to develop medications modulating the glutamatergic pathway with modest evidences for efficacy. The most successful approaches were those that aimed at influencing this pathway using compounds that enhance NMDA receptor function. More recently, the selective glycine reuptake inhibitor bitopertin has been shown to improve NMDA receptor hypofunction by increasing glycine concentrations in the synaptic cleft. Further research is required to test whether pharmacological agents with effects on the glutamatergic system can help to improve the treatment of negative symptoms in schizophrenic disorders.
Previous studies have indicated that entkaurene synthase (KS) is located in the proplastid stroma of rapidly dividing plant tissues. Here we present further and more direct evidence for this hypothesis and follow the activity of KS throughout the entire vegetative growth period of wheat plants. During germination of wheat caryopses, KS activity was maximal for a short period culminating on the third day in the scutellum and on the forth day in the meristematic shoot base. Throughout further development of the wheat plant, KS was found in the nodes but not in internodes or leaves. The activity of KS in each node increased when the internode above it was elongating and decreased again when this internode had almost reached its final size. The correlation of KS activity with growth was particularly striking in the case of tiller development from the forth node: here KS activity had already declined, but was restored when the tiller began elongating. Electron micrographs of wheat seedling tissue with high KS activity (shoot base) showed the presence of proplastids, whereas electron micrographs of tissue without such activity (primary leaves) showed only developing or mature chloroplasts. On densitygradient centrifugation, the plastids that yielded stroma preparations with KS activity became distributed over a greater density range and also had a lower NADP + -glyceraldehyde 3-phosphate dehydrogenase:shikimate oxidoreductase ratio than plastids yielding KS-inactive stroma preparations. Pea shoot apices contain both proplastids and mature chloroplasts. Here also, KS activity was associated with the stroma of plastids with characteristics similar to those of the wheat proplastids, indicating that KS is associated with proplastids in pea shoot apices as well. We conclude that the stromal location of KS may be a general feature of proplastids in rapidly dividing tissue.
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