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Extended N-terminal sequencing of proteins of the large ribosomal subunit from yeast mitochondria

Grohmann, L. ; Graack, H.-R. ; Kruft, V. ; [et al.]

Amsterdam : Elsevier

FEBS Letters 284 (1991), S. 51-56

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ISSN: 0014-5793

Keywords: Amino acid sequencing ; Mitochondria ; Mitoribosomal protein ; Saccharomyces cerevisiae ; Yeast

Source: Elsevier Journal Backfiles on ScienceDirect 1907 - 2002

Topics: Biology , Chemistry and Pharmacology , Physics

Type of Medium: Electronic Resource

URL: http://linkinghub.elsevier.com/retrieve/pii/0014-5793(91)80759-V

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The effect of partial inhibition of monoamine oxidase on the steady-state rate of deamination of 3H-catecholamines in two metabolizing systems (1986)

Cassis, Lisa ; Ludwig, J. ; Grohmann, M. ; [et al.]

Springer

Naunyn-Schmiedeberg's archives of pharmacology 333 (1986), S. 253-261

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ISSN: 1432-1912

Keywords: Neuronal deamination ; Extraneuronal deamination ; Rat vas deferens ; Rat heart ; Monoamine oxidase ; Pargyline

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Notes: Summary Two different “deaminating systems” were compared (i.e., intact tissues in which an uptake process translocates the 3H-catecholamine from the extracellular space to the intracellular MAO): 1) the adrenergic nerve endings of the rat vas deferens exposed to 10 nmol/l 3H-(−)-noradrenaline, and 2) the extraneuronal deaminating system of the rat heart perfused with 50 nmol/l 3H-(−)-adrenaline. Vesicular uptake and COMT were inhibited. In both systems MAO was partially inhibited by pargyline, and the steady-state tissue content of the 3H-catecholamine was determined as well as the steady-state rate of deamination. 1. Rat vas deferens (preincubated with 10–40 nmol/l pargyline for 30 min). Inhibition of neuronal MAO caused not more than a moderate decrease of the steady-state rate of deamination of 3H-(−)-noradrenaline, but the steady-state tissue content was greatly increased. Determinations of the activity of MAO in homogenates of vasa deferentia showed that preincubation with 10 and 20 nmol/l pargyline inhibited the enzyme by 80 to 95%. 2. Rat heart (of animals pretreated with 1 to 30 mg/kg pargyline). Inhibition of extraneuronal MAO caused a steep decline of the steady-state rate of deamination of 3H-(−)-noradrenaline but only a small rise in the steady-state tissue content. 3. The decisive difference between the two deaminating systems lies in the fact that the ratio “k mao/k out” (where the two k-values characterize the activity of the unsaturated intracellular MAO and the ability of the 3H-catecholamine to leave the relevant cells, respectively) is much higher for the neuronal deaminating system exposed to 3H-(−)-noradrenaline than for the extraneuronal deaminating system exposed to 3H-(−)-adrenaline. Whenever this ratio is high, pronounced (but incomplete) inhibition of MAO results in a very pronounced increase in the intracellular steady-state 3H-amine concentration (during exposure of the tissue to a 3H-catecholamine); as far as the steady-state rate of deamination is concerned, the pronounced rise in substrate concentration largely masks the pronounced degree of inhibition of MAO. When, however, the ratio is close to unity, inhibition of MAO fails to result in any pronounced increase in the intracellular steady-state 3H-amine concentration; as a consequence, any pronoumced inhibition of MAO is then reflected by a pronounced decrease of the steady-state rate of deamination. 4. From the present results it is concluded that, in experiments with intact tissues, the degree of inhibition of MAO cannot be derived from measurements of rates of deamination of 3H-catecholamines.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00512938

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The activity of the neuronal and extraneuronal catecholamine-metabolizing enzymes of the perfused rat heart (1987)

Grohmann, M.

Springer

Naunyn-Schmiedeberg's archives of pharmacology 336 (1987), S. 139-147

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ISSN: 1432-1912

Keywords: 3H-catecholamines ; Neuronal deamination ; Extraneuronal deamination ; Extraneuronal O-methylation ; k enzyme rat heart

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Notes: Summary In a comparative study the neuronal and extraneuronal metabolism of several 3H-catecholamines (all of which were tritiated in the C-7 position of the side chain only) was determined in isolated rat hearts perfused at a concentration of the 3H-amines of 50 nmol/1. While the neuronal MAO activity was determined after inhibition of extraneuronal uptake (100 μmol/1 OMI) and COMT (10 μmol/1 U-0521), the extraneuronal MAO activity was estimated after inhibition of neuronal uptake (30 μmol/1 cocaine) and COMT. The extraneuronal COMT activity was determined under conditions of inhibition of both neuronal uptake and MAO (pretreatment with pargyline). Hearts were perfused with the 3H-catecholamines until the rate of appearance of the various 3H-metabolites in the venous effluent has reached a steady state. From these rates (v st-st) and the steady-state content of the unchanged 3H-catecholamines in the tissue (S i), the rate constants (V max/K m) for the unsaturated intracellular enzymes COMT (κCOMT) and MAO (κMAO) were calculated. The κCOMTvalues for all four catecholamines, (−)-noradrenaline, dopamine, (−)-adrenaline and (±)-isoprenaline exhibit a range from 0.24 to 0.78 min−1; the metabolism of the catecholamines by the COMT differs: (-)-noradrenaline = dopamine 〈 (−)-adrenaline 〈 (±)-isoprenaline. The extraneuronal MAO activity was low for all three catecholamines, (−)-adrenaline, (−)-noradrenaline and dopamine (range of κMAOfrom 0.05 to 0.28 min−1) and declined in the order: (−)-adrenaline 〈 (−)-noradrenaline 〈 dopamine. The neuronal MAO activity for (−)-adrenaline, (−)-noradrenaline and dopamine was slightly higher than that in the extraneuronal cells (range of kMAO from 0.08 to 0.35 min−1), but the ranking order showed the same pattern: (−)-adrenaline 〈 (−)-noradrenaline = dopamine.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00165797

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The yeast nuclear gene MRP-L13 codes for a protein of the large subunit of the mitochondrial ribosome (1994)

Grohmann, Lutz ; Kitakawa, Madoka ; Isono, Katsumi ; [et al.]

Springer

Current genetics 26 (1994), S. 8-14

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ISSN: 1432-0983

Keywords: Saccharomyces cerevisiae ; Nuclear gene ; Mitochondria ; Mitochondrial ribosomal protein

Source: Springer Online Journal Archives 1860-2000

Topics: Biology

Notes: Abstract The nuclear gene MRP-L13 of Saccharomyces cerevisiae, which codes for the mitochondrial ribosomal protein YmL13, has been cloned and characterized. It is a single-copy gene residing on chromosome XI. Its nucleotide sequence was found to be identical to that of the previously reported ORF YK105. A comparison of the predicted protein sequence of the MRP-L13 gene product and the actual N-terminal amino-acid sequence of the isolated YmL13 protein indicated that the mature protein is preceded by a mitochondrial signal peptide of 86 amino-acid residues, which is the longest among all known mitochondrial ribosomal proteins of S. cerevisiae. No sequence similarity was found to any other ribosomal protein in the current databases. The transcription of MRP-L13 was found to be repressed in the presence of glucose. Its protein product is not strictly essential for mitochondrial functions, but disruption of the gene by insertion of LEU2 noticeably affected cellular growth on non-fermentable carbon sources.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00326298

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Errors introduced by a tritium label in position 8 of catecholamines (1986)

Grohmann, M. ; Henseling, M. ; Cassis, L. ; [et al.]

Springer

Naunyn-Schmiedeberg's archives of pharmacology 332 (1986), S. 34-42

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ISSN: 1432-1912

Keywords: Neuronal deamination ; Extraneuronal deamination ; Isotope effects ; 3H-catecholamides

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Notes: Summary The neuronal and extraneuronal disposition of3H-7,8-and3H-7-labelled (−)-noradrenaline and dopamine was compared in in vitro studies. 1. In agreement with earlier studies, the present results show that the presence of a tritium label in position 8 (i.e., on the alpha-carbon) has two consequences: a) the rate of deamination declines and b) part of the deamination results in the formation of an unlabelled aldehyde plus tritium water; tritium water is recovered from the OMDA-fraction of the column chromatographic procedure of Graefe et al. (1973). 2. Whenever the deamination of a3H-catecholamine is reduced (by tritium in position 8), the intraneuronal3H-catecholamine concentration is increased. This increase, in turn, partly masks the decline in neuronal deamination (rat vas deferens). Irrespective of whether one dertermines the spontaneous efflux, the release of3H-noradrenaline by nerve stimulation or the release of3H-(−)-noradrenaline by the reserpine-like compound Ro 4-1284, the presence of tritium in position 8 distorts the results (experiments with rat vasa deferentia and/or rabbit aorta). 3. In the extraneuronal system of the rat heart, two intracellular enzymes inactivate3H-(−)-noradrenaline and3H-dopamine: catechol-O-methyl transferase (COMT) and monoamine oxidase (MAO). Any hindrance of deamination (by tritium in position 8, COMT intact) leads to a shift of the metabolism of the3H-catecholamines from the exclusively deaminated to the exclusively O-methylated metabolites. 4. No differences between3H-7,8-and3H-7-labelled catecholamines were found after inhibition of MAO and COMT (extraneuronal accumulation and rate constant for efflux from the extraneuronal compartment III of the rat heart). 5. These results indicate that the presence of tritium in position 8 of catecholamines introduces errors, if monoamine oxidase is active. This is important for the interpretation of earlier results, since virtually all samples of “3H-(−)-noradrenaline” and “3H-dopamine nominally labelled in position 7” were contaminated with varying amounts of tritium in position 8. 6. In some experiments, also3H-7-(−)-adrenaline was used. For adrenergic nerve endings, the rate of metabolism (deamination) declined in the order:3H-7-dopamine 〉 3H-7-(−)-noradrenaline 〉 3H-7-(−)-adrenaline. For the extraneuronal disposition the ranking order was:3H-7-(−)-adrenaline 〉 3H-7-(−)-noradrenaline=3H-7-dopamine. However, in the extraneuronal disposition of3H-(−)-adrenaline, O-methylation predominated over deamination.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00633194

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