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Diurnal modulation of phosphoenolpyruvate carboxylation in pea leaves and roots as related to tissue malate concentrations and to the nitrogen source (1996)

Leport, Laurent ; Kandlbinder, Andrea ; Baur, Bernhard ; [et al.]

Springer

Planta 198 (1996), S. 495-501

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ISSN: 1432-2048

Keywords: Ammonium ; Malate ; Nitrate ; Phosphoenolpyruvate carboxylase ; Protein phosphorylation

Source: Springer Online Journal Archives 1860-2000

Topics: Biology

Notes: Abstract Phosphoenolpyruvate (PEP) carboxylation was measured as dark 14CO2 fixation in leaves and roots (in vivo) or as PEP carboxylase (PEPCase) activity in desalted leaf and roof extracts (in vitro) from Pisum sativum L. cv. Kleine Rheinländerin. Its relation to the malate content and to the nitrogen source (nitrate or ammonium) was investigated. In tissue from nitrate-grown plants, PEP carboxylation varied diurnally, showing an increase upon illumination and a decrease upon darkening. Diurnal variations in roots were much lower than in leaves. Fixation rates in leaves remained constantly low in continuous darkness or high in continuous light. Dark CO2 fixation of leaf slices also decreased when leaves were preilluminated for 1 h in CO2-free air, suggesting that the modulation of dark CO2 fixation was related to assimilate availability in leaves and roots. Phosphoenolpyruvate carboxylase activity was also measured in vitro. However, no difference in maximum enzyme activity was found in extracts from illuminated or darkened leaves, and the response to substrate and effectors (PEP, malate, glucose-6-phosphate, pH) was also identical. The serine/threonine protein kinase inhibitors K252b, H7 and staurosporine, and the protein phosphatase 2A inhibitors okadaic acid and cantharidin, fed through the leaf petiole, did not have the effects on dark CO2 fixation predicted by a regulatory system in which PEPCase is modulated via reversible protein phosphorylation. Therefore, it is suggested that the diurnal modulation of PEP carboxylation in vivo in leaves and roots of pea is not caused by protein phosphorylation, but rather by direct allosteric effects. Upon transfer of plants to ammonium-N or to an N-free nutrient solution, mean daily malate levels in leaves decreased drastically within 4–5 d. At that time, the diurnal oscillations of PEP carboxylation in vivo disappeared and rates remained at the high light-level. The coincidence of the two events suggests that PEPCase was de-regulated because malate levels became very low. The drastic decrease of leaf malate contents upon transfer of plants from nitrate to ammonium nutrition was apparently not caused by increased amino acid or protein synthesis, but probably by higher decarboxylation rates.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00262634

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Acid-base-modulation of nitrate reductase in leaf tissues (1995)

Kaiser, Werner M. ; Brendle-Behnisch, Elke

Springer

Planta 196 (1995), S. 1-6

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ISSN: 1432-2048

Keywords: Acid-base loading ; Nitrate reductase ; pH regulation (intracellular) ; Protein phosphorylation ; Spinacia

Source: Springer Online Journal Archives 1860-2000

Topics: Biology

Notes: Abstract The effect of acid or base-loading of spinach (Spinacia oleracea L.) leaf discs on the activation status of nitrate reductase (NR) in the dark and in the light was investigated. Activity of NR (NRA), measured in crude extracts of leaf discs with removed lower epidermis, which had been floating on Mes-buffer [2-(N-morpholino)ethane sulfonic acid] pH 5.2 in the dark, was at a similar low level as in whole, darkened leaves. By addition of acetate or propionic acid, butyric acid or benzoic acid, NR was activated to or beyond the light level. The pH of crude tissue extracts was decreased by 0.5–1 pH units. Tissue acidification caused an inhibition of photosynthesis and of dark CO2 fixation. The acid-induced activation of NR in vivo was largely prevented by okadaic acid, an inhibitor of Type 1 and Type 2A protein phosphatases. This indicates that acid-induced activation was mediated by protein dephosphorylation. When, on the other hand, leaf discs were illuminated on Ches-buffer (2-[ N-cyclohexylamino]ethane sulfonic acid) pH 9 in the presence of bicarbonate (80 mM), their NR was as active as in intact leaves. Addition of ammonium chloride (up to 6 mM) caused a pH increase of the tissue extract up to 0.9 pH units. At the same time NR was inactivated to the dark level. Methionine sulfoximine did not prevent the ammonium effect. Photosynthesis and dark CO2 fixation were stimulated at pH 9 by ammonium chloride (1–2· mol· m −3) and were only slightly inhibited by up to 6 mol· m−3. The modulation of NR by acid-base treatment in vivo was fully reversible. The response of the NR system to acid or base treatment is consistent with a proposed role of nitrate reduction in the cellular pH-stat. The observation also indicates that cytosolic pH changes may be involved the signal chain triggering the modulation of NR.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00193210

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Zytogenetik und molekulare Untersuchungen sichern die histopathologischen Diagnosen von chronischen myelopro-liferativen Erkrankungen ab (1995)

Werner, M. ; Nolte, M. ; Kaloutsi, V. ; [et al.]

Springer

Der Pathologe 16 (1995), S. 41-45

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ISSN: 1432-1963

Keywords: Schlüsselwörter Chronische myeloproliferative Erkrankungen ; Philadelphia-Translokation ; Zytogenetik ; Molekulargenetik ; Fluoreszenz-in-situ-Hybridisierung ; Histopathologie ; Key words Chronic myeloproliferative disorders ; Philadelphia-translocation ; Cytogenetics ; Molecular genetics ; Fluorescence in situ hybridization ; Histopathology

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Description / Table of Contents: Summary The histopathological classification of chronic myeloproliferative disorders can be supported by applying cytogenetics and molecular genetics to the analysis of bone marrow or blood cells, as demonstrated in 253 cases evaluated. The Philadelphia translocation (9;22) is the most important genetic parameter, being specific for chronic myeloid leukemia. Conventional methods for the detection of the t(9;22) are karyotyping and Southern blot analysis of the bcr gene. The newly established technique of fluorescence in situ hybridization (FISH) allows visualization of bcr-abl fusion even in non dividing cells. Molecular cytogenetics for t(9;22) yield results that are rapid and reliable as well as easily quantifiable.

Notes: Zusammenfassung Zytogenetische und molekulargenetische Untersuchungen von Knochenmark- oder Blutzellen sind für die histopathologische Klassifikation der chronischen myeloproliferativen Erkrankungen hilfreich, was durch die simultane Auswertung von 253 Fällen gezeigt wird. Insbesondere die Analyse der Philadelphia-Translokation (9;22) ist dabei für die Bestätigung oder den Ausschluß einer chronischen myeloischen Leukämie wichtig. Für den Nachweis der t(9;22) stehen die konventionelle Karyotypisierung mit Bestimmung des Philadelphia-Chromosoms und das Southernblotverfahren zur Analyse einer Umlagerung des bcr-Gens zur Verfügung. Durch die neuere Methode der Fluoreszenz-in-situ-Hybridisierung (FISH) kann auch eine bcr-abl-Fusion an Interphasekernen dargestellt werden. Diese molekulare Zytogenetik ist ein rasches und zuverlässiges Verfahren zum Nachweis der Philadelphia-Translokation, das zudem leicht quantifizierbare Ergebnisse liefert.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/s002920050074

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Inactivation of nitrate reductase involves NR-protein phosphorylation and subsequent ‘binding’ of an inhibitor protein (1995)

Glaab, Johanna ; Kaiser, Werner M.

Springer

Planta 195 (1995), S. 514-518

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ISSN: 1432-2048

Keywords: Inhibitor protein ; Nitrate reductase ; Protein phosphorylation ; Protein kinase ; Spinacia

Source: Springer Online Journal Archives 1860-2000

Topics: Biology

Notes: Abstract The function of two proteins (P67 and P100) required for the MgATP-dependent inactivation of nitrate reductase (NR) from spinach leaves (Spinacia oleracea L.) was studied. When NR was incubated with γ-[32P]ATP and P67, NR-protein was phosphorylated, but without a change in NR activity. Protein P100 by itself was neither able to phosphorylate nor to inactivate NR, and when added together with P67 it did not change the extent of NR phosphorylation. However, when NR was first phosphorylated with MgATP and P67, subsequent addition of P100 after removal of unreacted ATP caused an immediate NR inactivation. In presence of both P67 and P100 the time-course of ATP-dependent NR phosphorylation paralleled the time course of inactivation. The extent of NR phosphorylation and of NR inactivation (in the presence of P67 plus P100) was similarly affected by metabolites or high salt concentrations. Magnesium (Mg2+) played a dual role in the inactivation process: the phosphorylation of NR by P67 was strictly Mg2+-dependent. Further, phospho-NR (+P100) was inactive only in the presence of Mg2+, but active in the presence of excess EDTA. Dephospho-NR appeared to be Mg2+-insensitive. The observations suggest that phosphorylation of NR by P67 is obligatory, but not sufficient for inactivation. In addition to protein phosphorylation, inactivation requires “binding” of an inhibitor protein (P100) to phospho-NR.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00195708

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