Novel, Oxygen-Insensitive Group 5 [NiFe]-Hydrogenase in Ralstonia eutropha

H2-driven cofactor regeneration with NAD(P)+-reducing hydrogenases

(2013) Lars Lauterbach et al.   FEBS Journal

Structure, function and biosynthesis of O2-tolerant hydrogenases

(2013) Johannes Fritsch et al.   NATURE REVIEWS MICROBIOLOGY

Zymographic differentiation of [NiFe]-Hydrogenases 1, 2 and 3 of Escherichia coli K-12

(2012) Constanze Pinske et al.   BMC MICROBIOLOGY

The twin-arginine translocation (Tat) protein export pathway

(2012) Tracy Palmer et al.   NATURE REVIEWS MICROBIOLOGY

Genome Data Mining and Soil Survey for the Novel Group 5 [NiFe]-Hydrogenase To Explore the Diversity and Ecological Importance of Presumptive High-Affinity H2-Oxidizing Bacteria

(2011) Philippe Constant et al.   APPLIED AND ENVIRONMENTAL MICROBIOLOGY

Hydrogenases and the Global H2 Cycle

(2011) Rudolf Kurt Thauer   EUROPEAN JOURNAL OF INORGANIC CHEMISTRY

Analyses of Soluble and Membrane Proteomes ofRalstonia eutrophaH16 Reveal Major Changes in the Protein Complement in Adaptation to Lithoautotrophy

(2011) Yvonne Kohlmann et al.   JOURNAL OF PROTEOME RESEARCH

The crystal structure of an oxygen-tolerant hydrogenase uncovers a novel iron-sulphur centre

(2011) Johannes Fritsch et al.   NATURE

A unique iron-sulfur cluster is crucial for oxygen tolerance of a [NiFe]-hydrogenase

(2011) Tobias Goris et al.   Nature Chemical Biology

Co-localization of atmospheric H2 oxidation activity and high affinity H2-oxidizing bacteria in non-axenic soil and sterile soil amended with Streptomyces sp. PCB7

(2011) Philippe Constant et al.   SOIL BIOLOGY & BIOCHEMISTRY

H2 Conversion in the Presence of O2 as Performed by the Membrane-Bound [NiFe]-Hydrogenase of Ralstonia eutropha

(2010) Oliver Lenz et al.   CHEMPHYSCHEM

Aspartate 141 Is the Fourth Ligand of the Oxygen-sensing [4Fe-4S]2+Cluster ofBacillus subtilisTranscriptional Regulator Fnr

(2010) Ines Gruner et al.   JOURNAL OF BIOLOGICAL CHEMISTRY

Identification and characterization of a NADH oxidoreductase involved in phenylacetic acid degradation pathway from Streptomyces peucetius

(2010) Narayan Prasad Niraula et al.   MICROBIOLOGICAL RESEARCH

Unique Flexibility in Energy Metabolism Allows Mycobacteria to Combat Starvation and Hypoxia

(2010) Michael Berney et al.   PLoS One

Streptomycetes contributing to atmospheric molecular hydrogen soil uptake are widespread and encode a putative high-affinity [NiFe]-hydrogenase

(2009) Philippe Constant et al.   ENVIRONMENTAL MICROBIOLOGY

MocA Is a Specific Cytidylyltransferase Involved in Molybdopterin Cytosine Dinucleotide Biosynthesis in Escherichia coli

(2009) Meina Neumann et al.   JOURNAL OF BIOLOGICAL CHEMISTRY

A kinetic and thermodynamic understanding of O2 tolerance in [NiFe]-hydrogenases

(2009) J. A. Cracknell et al.   PROCEEDINGS OF THE NATIONAL ACADEMY OF SCIENCES OF THE UNITED STATES OF AMERICA

A proteomic view of the facultatively chemolithoautotrophic lifestyle ofRalstonia eutrophaH16

(2009) Edward Schwartz et al.   PROTEOMICS

Tropospheric H2 budget and the response of its soil uptake under the changing environment

(2009) Philippe Constant et al.   SCIENCE OF THE TOTAL ENVIRONMENT

Isolation of Streptomyces sp. PCB7, the first microorganism demonstrating high-affinity uptake of tropospheric H2

(2008) Philippe Constant et al.   ISME Journal

Oxygen-tolerant H2Oxidation by Membrane-bound [NiFe] Hydrogenases ofRalstoniaSpecies

(2008) Marcus Ludwig et al.   JOURNAL OF BIOLOGICAL CHEMISTRY

Extraction and characterization of soil hydrogenases oxidizing atmospheric hydrogen

(2008) Rongbo Guo et al.   SOIL BIOLOGY & BIOCHEMISTRY