Your search keyword '"Schmidt HL"' showing total 4 results

1. Is the isotopic composition of nitrous oxide an indicator for its origin from nitrification or denitrification? A theoretical approach from referred data and microbiological and enzyme kinetic aspects.

Author

Schmidt HL, Werner RA, Yoshida N, and Well R

Subjects

Enzyme Activation, Models, Biological, Nitrates chemistry, Nitrates metabolism, Nitrites chemistry, Nitrites metabolism, Nitrogen Isotopes classification, Nitrogen Isotopes metabolism, Nitrous Oxide classification, Nitrous Oxide metabolism, Oxidation-Reduction, Oxidoreductases metabolism, Quaternary Ammonium Compounds chemistry, Quaternary Ammonium Compounds metabolism, Bacteria metabolism, Mass Spectrometry methods, Models, Chemical, Nitrogen Isotopes analysis, Nitrogen Isotopes chemistry, Nitrous Oxide analysis, Nitrous Oxide chemistry, Oxidoreductases chemistry

Abstract

Literature data on the isotopic composition of nitrous oxide indicate a general predominance of the alpha-15N-isotopomer and a parallel 18O-enrichment in N2O from nitrification and denitrification, respectively. As the kinetic isotope effects on any individual reactions of the two processes lead to depletions of the heavy isotopes of nitrogen and oxygen in the products, the observed enrichments could mainly be caused by enzymatic reduction of NO, provided it occurs via a symmetric intermediate like hyponitrite; infrared data are in favour of large differences between the binding constants of the isotopomers and isotopologues of this compound. As a matter of fact one of the mechanisms discussed for the nitric oxide reductase from certain microorganisms implies the parallel binding of two NO molecules and the formation of a symmetrical intermediate, while that of the enzyme from other microorganisms reduces NO in a sequential mechanism. In addition, isotope effects on the reduction of N2O to N2 must contribute to the observed isotope characteristics of N2O, especially in context with denitrification. Therefore, the known enzymatic reaction pathways suggest that the alpha-15N-isotopomer preference and the 18O-signature of the produced N2O is not essentially characteristic for its origin from nitrification or denitrification, respectively, but rather from the involved population of microorganisms and the type of their nitric oxide reductases. This has to be confirmed experimentally., (Copyright 2004 John Wiley & Sons, Ltd.)

Published

2004

2. Prerequisites for the on-line control of microbial processes by flow injection analysis.

Author

Ogbomo I, Prinzing U, and Schmidt HL

Subjects

Bacteria analysis, Calibration, Culture Media analysis, Enzymes, Immobilized, Fermentation, Fungi analysis, Methods, Bacteria metabolism, Fungi metabolism

Abstract

Problems associated with the use of biosensors in process control, e.g. difficulties of sterilization and sensor fouling, are shortly displayed, and possibilities to overcome them are outlined. The advantages of flow injection analysis (FIA) are demonstrated and examples for efficient sampling systems connected with this method are reviewed. Special emphasis is given to problem-orientated sample pretreatments, preventing fast inactivation of immobilized enzymes in the analysis system. Examples of problem-orientated sample pretreatment units are given. A proposal for a computer-controlled self-calibrating FIA system is given.

Published

1990

3. [On the degradation of C14-labelled-malic acid by Bacterium gracile].

Author

SCHMIDT HL, HUESKENS G, and JERCHEL D

Subjects

Bacteria, Carbon, Carbon Radioisotopes, Lactobacillus, Malates chemistry, Radioactivity

Published

1962

4. Zum Abbau von 14C-markierter �pfels�ure durch Bacterium gracile

Author

Schmidt Hl, Jerchel D, and Hueskens G

Subjects

chemistry.chemical_compound, biology, Chemistry, Genetics, General Medicine, Malic acid, biology.organism_classification, Molecular Biology, Biochemistry, Microbiology, Molecular biology, Bacteria

Abstract

Der Apfelsaureabbau durch B. gracile wird mit Hilfe 14C-markierter Sauren quantitativ untersucht. Die nach dem Abbau wiedergefundene Aktivitat in Restapfelsaure, Milchsaure und Kohlendioxyd betragt zusammen 96–97% der Aktivitat der eingesetzten dl-Apfelsaure-[1,4-14C2]. Die molaren Verhaltnisse von abgebauter Apfelsaure zu Milchsaure und Kohlendioxyd sind 1:1:0,9. Ein Weiterabbau der Apfelsaure uber Milchsaure hinaus ist zu verneinen, da in diesem Fall mehr Kohlendioxyd entstehen muste als dem Verhaltnis 1:1:1 entsprache. D-Apfelsaure und Fumarsaure werden von den Bakterien ebenfalls dissimiliert, Milchsaure wird nicht angegriffen. Citronensaure-[1,5-14C2] wird sehr langsam abgebaut; als einziges Stoffwechselprodukt konnte bisher nur radioaktives Kohlendioxyd nachgewiesen werden. Die Darstellung von dl-Apfelsaure-[1,4-14C2] und Fumarsaure-[1,4-14C2] wird beschrieben.

Published

1962