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26 results on '"Kohler, Hans-Peter E."'

1. Biodegradation of poly(butylene succinate) in soil laboratory incubations assessed by stable carbon isotope labelling.

Author

Nelson, Taylor F., Baumgartner, Rebekka, Jaggi, Madalina, Bernasconi, Stefano M., Battagliarin, Glauco, Sinkel, Carsten, Künkel, Andreas, Kohler, Hans-Peter E., McNeill, Kristopher, and Sander, Michael

Subjects
CARBON isotopes, STABLE isotopes, RADIOLABELING, BIODEGRADABLE plastics, BIODEGRADATION, AGRICULTURAL pollution, ORGANOCLAY
Abstract

Using biodegradable instead of conventional plastics in agricultural applications promises to help overcome plastic pollution of agricultural soils. However, analytical limitations impede our understanding of plastic biodegradation in soils. Utilizing stable carbon isotope (13C-)labelled poly(butylene succinate) (PBS), a synthetic polyester, we herein present an analytical approach to continuously quantify PBS mineralization to 13CO2 during soil incubations and, thereafter, to determine non-mineralized PBS-derived 13C remaining in the soil. We demonstrate extensive PBS mineralization (65 % of added 13C) and a closed mass balance on PBS−13C over 425 days of incubation. Extraction of residual PBS from soils combined with kinetic modeling of the biodegradation data and results from monomer (i.e., butanediol and succinate) mineralization experiments suggest that PBS hydrolytic breakdown controlled the overall PBS biodegradation rate. Beyond PBS biodegradation in soil, the presented methodology is broadly applicable to investigate biodegradation of other biodegradable polymers in various receiving environments. This study applies stable carbon isotope labelling to study polymer biodegradation in soils. This labelling enables accurate and precise tracking of polymer carbon during biodegradation and, thereby, provides a holistic picture of this process. [ABSTRACT FROM AUTHOR]

Published
2022
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3. Catabolism of the groundwater micropollutant 2,6-dichlorobenzamide beyond 2,6-dichlorobenzoate is plasmid encoded in Aminobacter sp. MSH1.

Author

T'syen, Jeroen, Raes, Bart, Horemans, Benjamin, Tassoni, Raffaella, Leroy, Baptiste, Lood, Cédric, Van Noort, Vera, Lavigne, Rob, Wattiez, Ruddy, Kohler, Hans-Peter E., and Springael, Dirk

Subjects
MICROPOLLUTANTS, BENZOATES analysis, DRINKING water purification, PLASMID genetics, METABOLISM, GROUNDWATER purification
Abstract

Aminobacter sp. MSH1 uses the groundwater micropollutant 2,6-dichlorobenzamide (BAM) as sole source of carbon and energy. In the first step, MSH1 converts BAM to 2,6-dichlorobenzoic acid (2,6-DCBA) by means of the BbdA amidase encoded on the IncP-1β plasmid pBAM1. Information about the genes and degradation steps involved in 2,6-DCBA metabolism in MSH1 or any other organism is currently lacking. Here, we show that the genes for 2,6-DCBA degradation in strain MSH1 reside on a second catabolic plasmid in MSH1, designated as pBAM2. The complete sequence of pBAM2 was determined revealing that it is a 53.9 kb repABC family plasmid. The 2,6-DCBA catabolic genes on pBAM2 are organized in two main clusters bordered by IS elements and integrase genes and encode putative functions like Rieske mono-/dioxygenase, meta-cleavage dioxygenase, and reductive dehalogenases. The putative mono-oxygenase encoded by the bbdD gene was shown to convert 2,6-DCBA to 3-hydroxy-2,6-dichlorobenzoate (3-OH-2,6-DCBA). 3-OH-DCBA was degraded by wild-type MSH1 and not by a pBAM2-free MSH1 variant indicating that it is a likely intermediate in the pBAM2-encoded DCBA catabolic pathway. Based on the activity of BbdD and the putative functions of the other catabolic genes on pBAM2, a metabolic pathway for BAM/2,6-DCBA in strain MSH1 was suggested. [ABSTRACT FROM AUTHOR]

Published
2018
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4. Labeling and Protecting <italic>N</italic>‐Terminal Protein Positions by <italic>β</italic>‐Peptidyl Aminopeptidase‐Catalyzed Attachment of <italic>β</italic>‐Amino‐Acid Residues – Insulin as a First Example.

Author

Kolesinska, Beata, Wasko, Joanna, Kaminski, Zbigniew, Geueke, Birgit, Kohler, Hans‐Peter E., and Seebach, Dieter

Abstract

We have shown for the first time that a natural protein (human insulin) can be acylated at the N‐terminus with a β‐amino acid (H‐β3hAla‐), in a process catalyzed by the β‐peptidyl aminopeptidase 3‐2W4‐BapA. This selective modification, which could also be applied for protein labeling and tagging, should be generally useful, also to protect peptides and proteins from attack by common aminopeptidases. [ABSTRACT FROM AUTHOR]

Published
2018
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5. Measurement of oxygen isotope ratios (18O/16O) of aqueous O2 in small samples by gas chromatography/isotope ratio mass spectrometry.

Author

Pati, Sarah G., Bolotin, Jakov, Brennwald, Matthias S., Kohler, Hans‐Peter E., Werner, Roland A., and Hofstetter, Thomas B.

Subjects
OXYGEN isotopes, MASS spectrometry, GAS chromatography, REACTIVE oxygen species, CHEMICAL reduction
Abstract

Rationale Oxygen isotope fractionation of molecular O2 is an important process for the study of aerobic metabolism, photosynthesis, and formation of reactive oxygen species. The latter is of particular interest for investigating the mechanism of enzyme-catalyzed reactions, such as the oxygenation of organic pollutants, which is an important detoxification mechanism. Methods We developed a simple method to measure the δ18O values of dissolved O2 in small samples using automated split injection for gas chromatography coupled to isotope ratio mass spectrometry (GC/IRMS). After creating a N2 headspace, the dissolved O2 partitions from aqueous solution to the headspace, from which it can be injected into the gas chromatograph. Results In aqueous samples of 10 mL and in diluted air samples, we quantified the δ18O values at O2 concentrations of 16 μM and 86 μM, respectively. The chromatographic separation of O2 and N2 with a molecular sieve column made it possible to use N2 as the headspace gas for the extraction of dissolved O2 from water. We were therefore able to apply a rigorous δ18O blank correction for the quantification of 18O/16O ratios in 20 nmol of injected O2. Conclusions The successful quantification of 18O-kinetic isotope effects associated with enzymatic and chemical reduction of dissolved O2 illustrates how the proposed method can be applied for studying enzymatic O2 activation mechanisms in a variety of (bio)chemical processes. Copyright © 2016 John Wiley & Sons, Ltd. [ABSTRACT FROM AUTHOR]

Published
2016
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6. Metabolomics of hexachlorocyclohexane ( HCH) transformation: ratio of LinA to LinB determines metabolic fate of HCH isomers.

Author

Geueke, Birgit, Garg, Nidhi, Ghosh, Sneha, Fleischmann, Thomas, Holliger, Christof, Lal, Rup, and Kohler, Hans ‐ Peter E.

Subjects
HEXACHLOROCYCLOHEXANES, LINDANE, INSECTICIDES, ENZYMES, BIOREMEDIATION
Abstract

Although the production and use of technical hexachlorocyclohexane ( HCH) and lindane (the purified insecticidal isomer γ- HCH) are prohibited in most countries, residual concentrations still constitute an immense environmental burden. Many studies describe the mineralization of γ- HCH by bacterial strains under aerobic conditions. However, the metabolic fate of the other HCH isomers is not well known. In this study, we investigated the transformation of α-, β-, γ-, δ-, ε- HCH, and a heptachlorocyclohexane isomer in the presence of varying ratios of the two enzymes that initiate γ- HCH degradation, a dehydrochlorinase ( LinA) and a haloalkane dehalogenase ( LinB). Each substrate yielded a unique metabolic profile that was strongly dependent on the enzyme ratio. Comparison of these results to those of in vivo experiments with different bacterial isolates showed that HCH transformation in the tested strains was highly optimized towards productive metabolism of γ- HCH and that under these conditions other HCH-isomers were metabolized to mixtures of dehydrochlorinated and hydroxylated side-products. In view of these results, bioremediation efforts need very careful planning and toxicities of accumulating metabolites need to be evaluated. [ABSTRACT FROM AUTHOR]

Published
2013
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10. Simple enzymatic procedure forl-carnosine synthesis: whole-cell biocatalysis and efficient biocatalyst recycling.

Author

Heyland, Jan, Antweiler, Nicolai, Lutz, Jochen, Heck, Tobias, Geueke, Birgit, Kohler, Hans-Peter E., Blank, Lars M., and Schmid, Andreas

Subjects
CARNOSINE, ENZYMES, PEPTIDES, PROTEOLYSIS, BIOSYNTHESIS, CHEMICAL reactions
Abstract

β-Peptides and their derivates are usually stable to proteolysis and have an increased half-life compared with α-peptides. Recently, β-aminopeptidases were described as a new enzyme class that enabled the enzymatic degradation and formation of β-peptides. As an alternative to the existing chemical synthesis routes, the aim of the present work was to develop a whole-cell biocatalyst for the synthesis and production of β-peptides using this enzymatic activity. For the optimization of the reaction system we chose the commercially relevant β, α-dipeptidel-carnosine ( β-alanine-l-histidine) as model product. We were able to show that different recombinant yeast and bacteria strains, which overexpress a β-peptidase, could be used directly as whole-cell biocatalysts for the synthesis ofl-carnosine. By optimizing relevant reaction conditions for the best-performing recombinant Escherichia coli strain, such as pH and substrate concentrations, we obtained highl-carnosine yields of up to 71%. Long-time as well as biocatalyst recycling experiments indicated a high stability of the developed biocatalyst for at least five repeated batches. Application of the recombinant E. coli in a fed-batch process enabled the accumulation ofl-carnosine to a concentration of 3.7 g l−1. [ABSTRACT FROM AUTHOR]

Published
2010
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15. Bacterial β-peptidyl aminopeptidases with unique substrate specificities for β-oligopeptides and mixed β,α-oligopeptides.

Author

Geueke, Birgit, Heck, Tobias, Limbach, Michael, Nesatyy, Victor, Seebach, Dieter, and Kohler, Hans-Peter E.

Subjects
AMINOPEPTIDASES, AMINO acids, OLIGOPEPTIDES, MICROBIAL peptides, PROTEINS
Abstract

We previously discovered that BapA, a bacterial β-peptidyl aminopeptidase, is able to hydrolyze two otherwise metabolically inert β-peptides [Geueke B, Namoto K, Seebach D & Kohler H-PE (2005) J Bacteriol 187, 5910–5917]. Here, we describe the purification and characterization of two distinct bacterial β-peptidyl aminopeptidases that originated from different environmental isolates. Both bapA genes encode a preprotein with a signal sequence and were flanked by ORFs that code for enzymes with similar predicted functions. To form the active enzymes, which had an (αβ)4 quaternary structure, the preproteins needed to be cleaved into two subunits. The two β-peptidyl aminopeptidases had 86% amino acid sequence identity, hydrolyzed a variety of β-peptides and mixed β/α-peptides, and exhibited unique substrate specificities. The prerequisite for peptides being accepted as substrates was the presence of a β-amino acid at the N-terminus; peptide substrates with an N-terminal α-amino acid were not hydrolyzed at all. Both enzymes cleaved the peptide bond between the N-terminal β-amino acid and the amino acid at the second position of tripeptidic substrates of the general structure H-βhXaa-Ile-βhTyr-OH according to the following preferences with regard to the side chain of the N-terminal β-amino acid: aliphatic and aromatic > OH-containing > hydrogen, basic and polar. Experiments with the tripeptides H-d-βhVal-Ile-βhTyr-OH and H-βhVal-Ile-βhTyr-OH demonstrated that the two BapA enzymes preferred the peptide with thel-configuration of the N-terminal β-homovaline residue as a substrate. [ABSTRACT FROM AUTHOR]

Published
2006
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22. 5′-Methylbenzimidazolyl-cobamides are the corrinoids from some sulfate-reducing and sulfur-metabolizing bacteria.

Author

Kräutler, Bernhard, Kohler, Hans-Peter E., and Stupperich, Erhard

Subjects
BACTERIA, ARCHAEBACTERIA, FERMENTATION, SPECTRUM analysis, LEAVENING agents, SULFUR
Abstract

The sulfate-reducing bacteria Desulfobacterium autotrophicum. Desulfobulbus propionicus and Archaeoglobus fulgidus (VC-16) and the sulfur-metabolizing archaebacteria Desulfurolobus ambivalens and Thermoplasma acidophilum were found to contain considerable amounts of corrinoids, that were isolated and crystallized in their Coβ-cyano form. In three other sulfur-metabolizing archaebacteria, Thermoproteus neutrophilus, Pyrodictium occultum and Staphylothermus marinus significant amounts of corrinoids were not detected under the isolation methods used. The samples from the three sulfate-reducers were identified with Coα-[α-(5'-methylbenzimidazolyl)]-Coβcyanocobamide. This corrinoid was also obtained from a 5-methylbenzimidazole-supplemented Propionibacterium fermentation and was structurally characterized by ultraviolet/visible, CD, fast-atom-bombardment MS, ¹H- and 13C-NMR spectroscopy. Also the major corrinoid from T. acidophilum was (tentatively) analyzed as a 5'-methylbenzimidazolyl-cobamide, whereas the main corrinoid from D. ambivalens was indicated to be vitamin B12 (a 5',6'-dimethylbenzimidazolyl-cobamide). The 5'-methylbenzimidazolylcobamides are found here as the common corrins of some sulfate-reducing and sulfur-metabolizing bacteria. The structural diversity due to the differing nucleotide bases of the coffins examined here and in methanogenic and acetogenic bacteria appears not to correlate to the biological function(s) of the corrins, but rather to be determined by biosynthetic properties of these organisms under natural growth conditions. [ABSTRACT FROM AUTHOR]

Published
1988
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23. The activity level of a microbial community function can be predicted from its metatranscriptome.

Author

Helbling, Damian E, Ackermann, Martin, Fenner, Kathrin, Kohler, Hans-Peter E, and Johnson, David R

Subjects
MICROBIAL ecology, ENZYME activation, ESCHERICHIA coli, ATRAZINE, GENETIC transcription, BACTERIAL population
Abstract

The objective of this work was to improve our understanding of the quantitative predictive capabilities of metatranscriptomics. To meet this objective, we investigated whether we can predict the activity level of a specific biochemical function based on the abundance of the corresponding gene transcript within measured community metatranscriptomes. In addition, we investigated the lower limit of a microorganism's abundance that still allows detection of its transcripts within a metatranscriptome and prediction of the activity levels of the enzyme encoded by the transcript. To do this, we amended an undefined microbial community with varying fractions of an Escherichia coli strain that can catalyze a specific transformation reaction for the herbicide atrazine. We observed a linear and proportional relationship between the activity level of the transformation reaction and the abundance of its associated encoding transcript down to an E. coli cell density of 0.05% of the population. [ABSTRACT FROM AUTHOR]

Published
2012
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24. Crystallization and preliminary X-ray analysis of native and selenomethionine 2-hydroxybiphenyl 3-monooxygenase.

Author

Meyer, Andreas, Tanner, Daniel, Schmid, Andreas, Sargent, David F., Kohler, Hans-Peter E., and Witholt, Bernard

Subjects
PSEUDOMONAS, ESCHERICHIA coli, PROTEINS
Abstract

2-Hydroxybiphenyl 3-monooxygenase (HbpA; EC 1.14.13.44) from Pseudomonas azelaica HBP1 was produced in Escherichia coli both as native and SeMet-labelled protein. The two enzymes were purified to homogeneity and crystallized by the hanging-drop vapour diffusion method. The crystals belong to the monoclinic space group C2, with unit-cell parameters a = 108.6, b = 196.8, c = 79.3 Å, β = 97.7° for the native protein and a = 108.3, b = 196.8, c = 79.0 Å, β = 97.8° for SeMet HbpA. Crystal-packing considerations led to the assumption of two HbpA subunits per asymmetric unit, which corresponds to a V[sub M] value of 3.3 ų Da[sup -1] and a solvent content of 62%. The crystals were radiation-sensitive and only had a lifespan of about 120 s when exposed to synchrotron radiation on an undulator beamline. To obtain complete data sets, data were collected from 23 native and 26 derivative crystals. The high-resolution limit was 2.0 Å for native and 2.25 Å for SeMet HbpA. [ABSTRACT FROM AUTHOR]

Published
2003
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26. Fate of the herbicides mecoprop, dichlorprop, and 2,4-D in aerobic and anaerobic sewage sludge as determined by laboratory batch studies and enantiomer-specific analysis

Author

Muller, Markus D., Angst, Werner, Zipper, Christian, Fleischmann, Thomas, Kohler, Hans-Peter E., Bolliger, Christof, and Suter, MarcJ.-F.

Subjects
HERBICIDES, SEWAGE sludge, BIODEGRADATION
Abstract

Aerobic degradation experiments with the racemic mixtures of mecoprop and dichlorprop revealed that activated sludge collected from the aeration tank of a municipal waste water treatment plant degraded bothenantiomers of mecoprop and dichlorprop within 7 days, albeit in an enantioselective manner; the (S) enantiomers were preferentially degraded. Mecoprop, dichlorprop, and 2,4-D were completely metabolized under aerobic conditions, as shown by the 86-98% elimination of dissolved organic carbon. Under anaerobic conditions, the concentration of 2,4-D decreased exponentially with a first-order reaction rate constant of 0.24 per day and without a lag-phase. After an incubation time of 17 days, 2,4-D was completely removed. 2,4-Dichlorophenol was the main metabolite of anaerobic 2,4-D degradation; only traces of 4-chlorophenol were detected. In contrast, the chiral phenoxypropionic acid herbicides mecoprop and dichlorprop persisted under anaerobic conditions during 49 days of incubation. [ABSTRACT FROM AUTHOR]

Published
1999
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