Search Results - "GROSS, Roland"

Damage mechanisms of metallic HVOF-coatings for high heat flux application by Fiedler, Torben, Groß, Roland, Rösler, Joachim, Bäker, Martin

“…The copper wall of regeneratively cooled liquid fuel rocket-combustion chambers is exposed to high thermomechanical loads. Although it is cooled by liquid…”
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The Cathelicidin LL-37 Activates Human Mast Cells and Is Degraded by Mast Cell Tryptase: Counter-Regulation by CXCL4 by Schiemann, Florian, Brandt, Ernst, Gross, Roland, Lindner, Buko, Mittelstadt, Jessica, Sommerhoff, Christian P, Schulmistrat, Jan, Petersen, Frank

“…The cathelicidin LL-37 represents a potent antimicrobial and cell-stimulating agent, most abundantly expressed in peripheral organs such as lung and skin…”
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Complete Genome Sequence and Analysis of Wolinella succinogenes by Baar, Claudia, Eppinger, Mark, Raddatz, Guenter, Simon, Jörg, Lanz, Christa, Klimmek, Oliver, Nandakumar, Ramkumar, Gross, Roland, Rosinus, Andrea, Keller, Heike, Jagtap, Pratik, Linke, Burkhard, Meyer, Folker, Lederer, Hermann, Schuster, Stephan C.

“…To understand the origin and emergence of pathogenic bacteria, knowledge of the genetic inventory from their nonpathogenic relatives is a prerequisite…”
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Experimental Support for the "E Pathway Hypothesis" of Coupled Transmembrane e-and H+Transfer in Dihemic Quinol:Fumarate Reductase by C. Roy D. Lancaster, Ursula S. Sauer, Groß, Roland, Alexander H. Haas, Jürgen Graf, Schwalbe, Harald, Mäntele, Werner, Simon, Jörg, M. Gregor Madej

“…Reconciliation of apparently contradictory experimental results obtained on the quinol:fumarate reductase, a diheme-containing respiratory membrane protein…”
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Essential Role of Glu-C66 for Menaquinol Oxidation Indicates Transmembrane Electrochemical Potential Generation by Wolinella succinogenes Fumarate Reductase by C. Roy D. Lancaster, Gross, Roland, Haas, Alexander, Ritter, Michaela, Mantele, Werner, Simon, Jorg, Kroger, Achim

“…Quinol:fumarate reductase (QFR) is a membrane protein complex that couples the reduction of fumarate to succinate to the oxidation of quinol to quinone, in a…”
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Characterization of the Menaquinone Reduction Site in the Diheme Cytochrome b Membrane Anchor of Wolinella succinogenes NiFe-hydrogenase by Gross, Roland, Pisa, René, Sänger, Monica, Lancaster, C.Roy D., Simon, Jörg

“…The majority of bacterial membrane-bound NiFe-hydrogenases and formate dehydrogenases have homologous membrane-integral cytochrome b subunits. The prototypic…”
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Influence of the Temperature on Coccolith‐Containing Systems from Emiliania huxleyi Cultivations by Chairopoulou, Makrina A., Kratzer, Fabian, Gross, Roland, Herrmann, Michael, Teipel, Ulrich

“…Thermogravimetric analysis of a coccolith‐containing biogenic broth showed a three‐step degradation process. According to this system behavior, the biogenic…”
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Site-directed modifications indicate differences in axial haem c iron ligation between the related NrfH and NapC families of multihaem c-type cytochromes by Gross, Roland, Eichler, Robert, Simon, Jörg

“…During the last decade, a number of related bacterial membrane-bound multihaem c-type cytochromes, collectively referred to as the NapC/NirT family, were…”
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Mast cells and neutrophils proteolytically activate chemokine precursor CTAP-III and are subject to counterregulation by PF-4 through inhibition of chymase and cathepsin G by Schiemann, Florian, Grimm, Tobias Alexander, Hoch, Josef, Gross, Roland, Lindner, Buko, Petersen, Frank, Bulfone-Paus, Silvia, Brandt, Ernst

“…The CXC chemokines platelet factor 4 (PF-4/CXCL4) and connective tissue-activating peptide III (CTAP-III) are released by activated human platelets in…”
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Fumarate respiration of Wolinella succinogenes: enzymology, energetics and coupling mechanism by Kröger, Achim, Biel, Simone, Simon, Jörg, Gross, Roland, Unden, Gottfried, Lancaster, C.Roy D.

“…Wolinella succinogenes performs oxidative phosphorylation with fumarate instead of O 2 as terminal electron acceptor and H 2 or formate as electron donors…”
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The hydE gene is essential for the formation of Wolinella succinogenes NiFe-hydrogenase by Gross, Roland, Simon, Jörg

“…Wolinella succinogenes grows by anaerobic respiration using hydrogen gas as electron donor. The hydE gene is located on the genome downstream of the structural…”
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Electron transport to periplasmic nitrate reductase (NapA) of Wolinella succinogenes is independent of a NapC protein by Simon, Jörg, Sänger, Monica, Schuster, Stephan C., Gross, Roland

“…Summary The rumen bacterium Wolinella succinogenes grows by respiratory nitrate ammonification with formate as electron donor. Whereas the enzymology and…”
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A NapC/NirT‐type cytochrome c (NrfH) is the mediator between the quinone pool and the cytochrome c nitrite reductase of Wolinella succinogenes by Simon, Jörg, Gross, Roland, Einsle, Oliver, Kroneck, Peter M. H., Kröger, Achim, Klimmek, Oliver

“…Wolinella succinogenes can grow by anaerobic respiration with nitrate or nitrite using formate as electron donor. Two forms of nitrite reductase were isolated…”
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The nrfl gene is essential for the attachment of the active site haem group of Wolinella succinogenes cytochrome c nitrite reductase by Pisa, Rene, Stein, Torsten, Eichler, Robert, Gross, Roland, Simon, Jorg

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The nrfI gene is essential for the attachment of the active site haem group of Wolinella succinogenes cytochrome c nitrite reductase by Pisa, René, Stein, Torsten, Eichler, Robert, Gross, Roland, Simon, Jörg

“…Summary The cytochrome c nitrite reductase complex (NrfHA) is the terminal enzyme in the electron transport chain catalysing nitrite respiration of Wolinella…”
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Modification of heme c binding motifs in the small subunit (NrfH) of the Wolinella succinogenes cytochrome c nitrite reductase complex by Simon, Jörg, Eichler, Robert, Pisa, René, Biel, Simone, Gross, Roland

“…The two multiheme c-type cytochromes NrfH and NrfA form a membrane-bound complex that catalyzes menaquinol oxidation by nitrite during respiratory nitrite…”
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Transport of C 4 -Dicarboxylates in Wolinella succinogenes by Ullmann, Roland, Gross, Roland, Simon, Jörg, Unden, Gottfried, Kröger, Achim

“…ABSTRACT C 4 -dicarboxylate transport is a prerequisite for anaerobic respiration with fumarate in Wolinella succinogenes , since the substrate site of…”
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FTIR Difference Spectra of Wolinella succinogenes Quinol:Fumarate Reductase Support a Key Role of Glu C180 within the “E-Pathway Hypothesis” of Coupled Transmembrane Electron and Proton Transfer by Haas, Alexander H, Sauer, Ursula S, Gross, Roland, Simon, Jörg, Mäntele, Werner, Lancaster, C. Roy D

“…Electrochemically induced static FTIR difference spectroscopy has been employed to investigate redox-driven protonation changes of individual amino acid…”
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The hydE gene is essential for the formation of Wolinella succinogenes NiFe-hydrogenase by Gross, Roland, Simon, Jörg

“…Wolinella succinogenes grows by anaerobic respiration using hydrogen gas as electron donor. The hydE gene is located on the genome downstream of the structural…”
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Transport of C4-dicarboxylates in Wolinella succinogenes by Ullmann, Roland, Gross, Roland, Simon, Jorg, Unden, Gottfried, Kroger, Achim

“…C4-dicarboxylate transport is a prerequisite for anaerobic respiration with fumarate in Wolinella succinogenes, since the substrate site of fumarate reductase…”
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