Glutamatdehydrogenase im photosynthetischen Bakterium Rhodospirillum rubrum

Zusammenfassung Glutamatdehydrogenase wurde aus Rhodospirillum rubrum durch Fällung mit Ammoniumsulfat und Chromatographie an DEAE-Cellulose 35 fach angereichert. Das Enzym ist spezifisch auf NAD als Wasserstoffdonator/acceptor und -Ketoglutarat bzw. Glutamat. Hg-Ionen blockieren die Reaktion in beiden Richtungen; Nitrit- und Nitrationen hemmen in höheren Konzentrationen. Die Abbaurate wird durch die Anwesenheit von ATP verringert. Die Stickstoffquelle des Nährmediums wirkt sich nur wenig auf die Ausbildung des Enzyms in den Zellen aus, dagegen wird durch Produkthemmung im natürlichen Milieu bei Wachstum auf Malat und NH₄ ⁺ der Glutamatabbau praktisch unterdrückt.

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Glutamate dehydrogenase from the photosynthetic bacterium Rhodospirillum rubrum

Summary Glutamate dehydrogenase from Rhodospirillum rubrum was purified 35 fold by ammonium sulfate precipitation and chromatography on DEAE-cellulose. The enzyme is specific for NAD as hydrogen donor/acceptor and -ketoglutarate and glutamate for the synthesis, respectively the degradation of the amino acid. Hg²⁺ ions completely inhibit both synthesis and degradation; a weaker inhibition can be shown by addition of various inorganic nitrogen compounds. The rate of the glutamate degradation is reduced by ATP. The nitrogen source of the culture medium is without effect on the formation of the glutamate dehydrogenase, however, under growth conditions in a malate-NH₄ ⁺-solution the glutamate degradation is almost completely suppressed by product inhibition.

     

Phytochrom-induzierte Enzymbildung (Phenylalanindesaminase), ein schnell ablaufender Prozeß

Zusammenfassung Bei Erstbelichtung des Senfkeimlings mit Dauer-Dunkelrot tritt der P₇₃₀-abhängige Anstieg der Phenylalanindesaminase-Aktivität erst mit einer lag-Phase von 1,5 Std ein (Abb. 3, 4 unten). Bei einer Zweitbelichtung (Programm: Erstbelichtung — längere Dunkelperiode — Zweitbelichtung) fehlt die lag-Phase (Abb. 4, oben). Die Enzymaktivität steigt sofort linear an. Da der Anstieg der Enzymaktivität wahrscheinlich auf eine de novo Synthese von RNS und Enzymprotein zurückzuführen ist (Tabelle), so erscheint der Schluß berechtigt, daß P₇₃₀ sehr rasch eine differentielle Genaktivierung mit anschließender Enzymsynthese bewirken kann, falls die Gene der Aktivierung durch P₇₃₀ zugänglich sind. Die relativ lange lag-Phase nach Einsetzen der Erstbelichtung benötigt das P₇₃₀ offenbar dazu, die potentiell aktiven Gene (P₇₃₀) für das P₇₃₀ zugänglich zu machen. Das Problem der primären lag-Phase ist in einer vorangegangenen Arbeit zur P₇₃₀-abhängigen Anthocyansynthese ausführlich diskutiert worden (vgl. Lange, Bienger und Mohr, 1967).

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Phytochrome-mediated enzyme formation (Phenylalanine deaminase) as a rapid process

Summary In previous papers we have reported (Mohr and Durst, 1966a, b) that synthesis of phenylalanine deaminase (EC 4.3.1.5), an important enzyme of phenolic metabolism, can be stimulated by the physiologically active phytochrome (=P₇₃₀) in the mustard seedling. The data of the present paper suggest that induction of this enzyme is a rapid process if the gene in question is easily accessible for the activating action of P₇₃₀.The seedlings were irradiated with continuous standard far-red light. Longtime irradiation with far-red will maintain a low but virtually constant level of P₇₃₀ in the seedling over an extended period of time. At the moment when the far-red light is turned off the action of P₇₃₀ will virtually cease. — Fig. 3 and Fig. 4, lower part, show the kinetics of enzyme induction by P₇₃₀ in an etiolated seedling. The initial (or primary) lag-phase after the onset of far-red is 1.5 hours. If, however, a seedling which has been pre-irradiated with 12 hours of far-red is kept in darkness for 6 hours and is then re-irradiated with far-red no lag-phase for the action of the second irradiation can be found. Enzyme activity increases immediately after the onset of far-red. Since the action of the second irradiation as measured by increase of enzyme activity can be inhibited by relatively low doses of Puromycin and Cycloheximide (table) we conclude that the re-appearance of P₇₃₀ leads to de novo synthesis of enzyme protein. — Application of Actinomycin D (10 g/ml) only partially inhibits the action of the second irradiation as measured by increase of enzyme activity. This finding was to be expected. In preceding papers (e.g. Mohr and Bienger, 1967) it has been concluded that genes which have once been activated by P₇₃₀ remain less sensitive towards Actinomycin D even when P₇₃₀ has disappeared. Taking into account all available data the conclusion seems to be justified that the induction of enzyme synthesis by P₇₃₀ (i.e. differential gene activation followed by enzyme synthesis) is a rapid process if the genes are accessible for the action of P₇₃₀. The relatively long initial lag-phase (1.5 hours) is needed to make the potentially active genes (P₇₃₀) accessible for the action of P₇₃₀. The problem of how the initial lag-phase can be understood has been dealt with more in detail in a previous paper on phytochrome-mediated anthocyanin synthesis (Lange, Bienger and Mohr, 1967).

     

Quantum Requirement for Photosynthesis in Chlorophyll-Deficient Plants with Unusual Lamellar Structures

Neither an over-all deficiency of chlorophyll, nor an increased enzymatic capacity for maximal rates, nor an unusual lamellar structure was found to change the number of quanta required for the evolution of one molecule of oxygen in healthy aurea mutants of tobacco. The average minimal quantum number remains 10 (efficiency 0.1) as in many algae and typical higher plants. Most of the time the optimal efficiency depends on the availability of some far-red radiation, particularly in the blue region of the spectrum where blue light alone is rather inefficient. These results fit an explanation offered earlier in connection with the hydrogen or acetate photometabolism of algae in far-red light.     

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Fusion of cultured dog kidney (MDCK) cells: I. Technique,fate of plasma membranes and of cell nuclei

Summary The evaluation of the intracellular signal train and its regulatory function in controlling transepithelial transport with electrophysiological methods often requires intracellular measurements with microelectrodes. However, multiple impalements in epithelial cells are hampered by the small size of the cells. In an attempt to avoid these problems we fused cells of an established cell line, Madin Darby canine kidney cells, originally derived from dog kidney, to giant cells by applying a modified polyethylene glycol method. During trypsin-induced detachment from the ground of the petri dish, individual cells grown in a monolayer incorporate volume and mainly lose basolateral plasma membrane by extrusion. By isovolumetric cell-to-cell fusion, spherical giant cells are formed within 2 hr. During this process a major part of the individual cell plasma membranes is internalized. Over three weeks following cell plasma membrane fusion degradation of single cell nuclei and cell nuclear fusion occurs. We conclude that this experimental approach opens the possibility to investigate ion transport of epithelia in culture by somatic cell genetic techniques.     

The wind-orientation of walking carrion beetles

The wind-orientation of carrion beetles (Necrophorus humator F.) was studied by use of a locomotion-compensator.

Sea snake (Microcephalophis gracilis) hemoglobin: Primary structure and relationships to other forms

The hemoglobin of the sea snakeMicrocephalophis gracilis was purified and the primary structure of the α and β chains determined. This is the first sea snake hemoglobin structure characterized, and apparently also the first complete structure of any snake hemoglobin (an α chain of a viper was known), allowing judgments of reptilian variants. Variations between the sea snake form and other reptilian forms are large (52–65 differences for the α chains), of similar order as those between the sea snake and avian (56–65 differences) or human (58 differences) forms. Functionally, 19 residues at α/β contact areas and 7 at heme contacts are exchanged in relation to the human α and β chains. Four positions of the sea snake hemoglobin contain residues thus far unique to this form. However, all replacements appear compatible with conserved overall functional properties.     

Temperature influence on cohort parameters and demographic characteristics of the two cowpea coreids Clavigralla tomentosicollis and C. shadabi

Age-specific life tables of two important pests of cowpea, Vigna unguiculata (L.) Walp., the pod sucking bugs Clavigralla tomentosicollis Stål and C. shadabi Dolling (Heteroptera: Coreidae), were obtained from observations carried out at different temperatures. A biophysical model was found satisfactory to describe the temperature-response of developmental and mortality rates of egg and nymphal stages, with a peak developmental rate around 34°C in both species. The variability in development times was small and the experimental data did not permit any conclusion with regard to the Erlang probability density function. Survival of eggs and nymphs remained high between 20° and 30°C for both species. At temperatures above 34°C, C. tomentosicollis survivorship and fecundity was higher than that of C. shadabi, which in turn laid more eggs at temperatures between 20° and 30°C. Maximum fecundity is estimated to be at 29°C for C. tomentosicollis (99 eggs/female) and 26°C for C. shadabi (261 eggs/female). At 30°C, the intrinsic rate of increase reached a maximum in both species, 0.152 per day for C. tomentosicollis and 0.145 per day for C. shadabi, and remained high for C. tomentosicollis until 36°C. C. tomentosicollis performed significantly better on pigeonpea, Cajanus cajan Millsp., than on cowpea at higher temperatures.