TY  - JOUR
A1  - Klughammer, Christof
A1  - Schreiber, Ulrich
T1  - Deconvolution of ferredoxin, plastocyanin, and P700 transmittance changes in intact leaves with a new type of kinetic LED array spectrophotometer
JF  - Photosynthesis Research
N2  - A newly developed compact measuring system for assessment of transmittance changes in the near-infrared spectral region is described; it allows deconvolution of redox changes due to ferredoxin (Fd), P700, and plastocyanin (PC) in intact leaves. In addition, it can also simultaneously measure chlorophyll fluorescence. The major opto-electronic components as well as the principles of data acquisition and signal deconvolution are outlined. Four original pulse-modulated dual-wavelength difference signals are measured (785-840 nm, 810-870 nm, 870-970 nm, and 795-970 nm). Deconvolution is based on specific spectral information presented graphically in the form of 'Differential Model Plots' (DMP) of Fd, P700, and PC that are derived empirically from selective changes of these three components under appropriately chosen physiological conditions. Whereas information on maximal changes of Fd is obtained upon illumination after dark-acclimation, maximal changes of P700 and PC can be readily induced by saturating light pulses in the presence of far-red light. Using the information of DMP and maximal changes, the new measuring system enables on-line deconvolution of Fd, P700, and PC. The performance of the new device is demonstrated by some examples of practical applications, including fast measurements of flash relaxation kinetics and of the Fd, P700, and PC changes paralleling the polyphasic fluorescence rise upon application of a 300-ms pulse of saturating light.
KW  - Chlorophyll fluorescence
KW  - Cyclic electron transport
KW  - FeS proteins
KW  - Flash relaxation kinetics
KW  - Photosystem I
KW  - Polyphasic fluorescence rise
KW  - Thioredoxin
Y1  - 2016
U6  - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:bvb:20-opus-189050
VL  - 128
IS  - 2
ER  - 
TY  - THES
A1  - Pasquet, Vivian
T1  - Characterization of thioredoxin and glutathione reductase activities of Mesocestoides vogae, a flatworm parasite useful as a laboratory model for the screening of drugs.
T1  - Charakterisierung von Thioredoxin- und Glutathionreduktase Aktivitäten von Mesocestoides vogae, einem parasitären Plattwurm der als Labormodell für die Testung von Arzneistoffen verwendet werden kann
N2  - Flatworm parasites (platyhelminths) cause serious infection diseases in humans, such as schistosomiasis and hydatid disease, mainly prevalent in developing countries. However, the current repertoire of drug armamentarium used to combat flatworm infections is limited. For instance, praziquantel is the only drug available for mass treatment of Schistosoma infections. In contrast to their hosts, flatworm parasites possess a distinct redox arrangement of redox pathways in which the selenoenzyme thioredoxin glutathione reductase (TGR) controls the overall redox homeostasis. Interference with this enzyme leads to parasite death. Hence, this key redox enzyme seems to be a new promising drug target against flatworm infections. 
Because most flatworms are difficult to cultivate in the laboratory (e.g. Echinococcus granulosus experimental infection in mice takes about 10 month to develop into cysts), this work was focused on Mesocestoides vogae (syn. corti), a non-human flatworm parasite which is an interesting laboratory model to study other flatworm infections: it is very rare in humans, can be easily manipulated both in vivo and in vitro and grows extremely fast in mice.  With the aim to assess TGR inhibitors as possible drugs to treat flatworm infections, the thioredoxin and glutathione pathways of M.vogae were studied. Here, the objectives were to study whether the biochemical pathways that maintain the redox homeostasis in M. vogae conform to the general biochemical scenario proposed for other platyhelminth parasites.
Here, it was proven that M. vogae extracts possess both thioredoxin and glutathione reductase activities.  The thioredoxin and glutathione reductase activities were partially purified from total extracts by a combination of ammonium sulfate precipitation, anion exchange and hydroxyapatite chromatography. Both activities co-purified in all steps which strongly indicates the existence of TGR rather than a single TR and GR. Furthermore partially purified activities could be inhibited by the organogold compound auranofin, a known TGR inhibitor. Moreover, the glutathione reductase activity displays hysteresis (a peculiar kinetic behavior) at high concentrations of oxidised glutathione, a feature typical of flatworm TGRs, but not of conventional GR. Although M. vogae activities could not be purified to homogeneity, the overall results strongly indicate that this flatworm possesses TGR and lacks conventional GR and TR. 
Furthermore the thiadiazole WPQ75 and the N-oxide VL16E (a furoxan derivate) were identified as inhibitors of TGR activity of M.vogae at a 10 µM concentration. These inhibitors were able to kill M.vogae larval worms in vitro as well as in experimental infection in mice.
Due to the existence of TGR activity in M.vogae, the possibility to inhibit this activity with recently discovered inhibitors of flatworm TGR and the successes achieved by testing these inhibitors both in vitro and in vivo, it is strongly evident that M. vogae would be an excellent model to assess TGR inhibitors in flatworm infections.
N2  - Charakterisierung von Thioredoxin- und Glutathionreduktase Aktivitäten von Mesocestoides vogae, einem parasitären Plattwurm der als Labormodell für die Testung von Arzneistoffen verwendet werden kann
KW  - Thioredoxin
KW  - Mesocestoides vogae
KW  - Glutathione
Y1  - 2014
U6  - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:bvb:20-opus-106759
ER  - 
TY  - THES
A1  - Paunescu, Karina
T1  - DNA-Stabilität und Thioredoxin/Thioredoxin Reduktase im Zellkern
T1  - DNA-Stability and thioredoxin/thioredoxin reductase in nucleus
N2  - Das System Thioredoxin /Thioredoxin Reduktase(Trx/TrxR) ist ein sehr versatiles System zur neutralisation reaktiver Sauerstoffspezies, zur Regulation redox-sensitiver Vorgänge und zur Aktivierung von Transkriptionsfaktoren wie Steroidhormonrezeptoren, AP-1 und NFkB. Das Enzym Thioredoxin Reduktase war zunächst nur als zytosolisches Enzym beschrieben, es ist mittlerweile bekannt, dass es z. B. nach Phorbolester-Stimulation auch sezeniert werden kann. Adäquate Stimuli für die nucläere Translokation von Trx sind z. B. UV-Licht und TNF-Signalling. Zudem wurde in der vorhandenen Arbeit anhand transienter Transfektion und immunhistochemischer Untersuchungen nachgewiesen, dass beide Komponenten des Systems auch im Zellkern präsent sind. Ein Teil er Arbeit stellt die Charakteriesierung der subzellulären Lokalisation zweier Isoformen von Thioredoxin Reduktase 1 mit unterschiedlichem N-Terminus dar. Es konnte gezeigt werden, dass die beiden Isoformen als mRNA und Protein vorhanden sind. Es wurde dann die Interaktion des Enzyms Thioredoxin Reduktase mit anderen Komponenten des Zellkerns, hier speziell mit Enzymen der DNA-Prozessierung untersucht. Zudem wurde in einem Immunpräzipitationsansatz ("Pull-Down-Assay") nucläere Interaktionspartner des Enzyms charakterisiert. Diese Partner sollen nach Gelelektrophorese und MALDI-TOF-Analyse identifiziert werden. Zu den DNA-Prozessierungsenzyme zählt auch Topisomerase I. Durch Antikörpervermittelte Assays gelang es nachzuweisen, dass Topoisomerase I mit TrxR eine Protein-Protein-Wechsekwirkung eingeht. In einem Rekonstruktionssystem mit rekombinanter Topoisomerase I und gerenigter TrxR ergab sich jedoch keiner Hinweis für eine funktionelle Interaktion in DNA-Relaxations-Assay. Die Aufschlüsselung der Protein-Protein-Interaktion, der detaillierten molekularen Mechanismen und ihrer physiologischen relevanz bleibt weiteren Unterschungen vorbehalten.
N2  - The mammalian thioredoxin system consists of thioredoxin (Trx), thioredoxin reductase (TrxR), and NADPH. Human Trx was originally cloned as a soluble factor named adult T-cell leukemia-derived factor, which was purified from the conditioned medium of human T-cell lymphotrophic virus-I-transformed CD4+ T-cell line, ATL-2 (Yodoi, J., et al.1992, Nakamura, et al. 1992, 1997, Tagaya, Y., et al. 1989). It participates in many different types of reactions including synthesis of deoxyribonucleotides , redox control of transcription factors, reduction of peroxides, and regulation of apoptosis. The thioredoxin reductases (TrxRs) belong to the flavoprotein family of pyridine nucleotide-disulphide oxidoreductases that includes lipoamide dehydrogenase, glutathione reductase and mercuric ion reductase. Members of this family are homodimeric proteins. Each monomer includes an FAD prosthetic group, an NADPH binding site and an active site containing a redox-active disulphide. Recently it has been reported that the human TrxR1 gene exhibits possible alternative splicing around its first exon (Rundlof AK, et al. 2001). The Arner group reported three isoforms of TrxR mRNA (I, II, V) and Tonissen group identified two further isoforms (isoforms IV and VI) and proposed another (isoform III), that would align with the mouse isoform III.In this work it could be demonstrated, that PCR using isoform specific oligonucleotide primers yielded products for both ATGs, indicating the existence of both mRNA species. Transient transfection of GFP fusion proteins (Trx-N1-EGFP, TrxR-N1-EGFP, TrxR-pDsRed2N1) into osteoblast cells (hFOB) revealed cytosolic localisation of both isoforms. While the isoform ATG1 was also nuclear, ATG2 was very rarely found in the nucleus. Transfection of the ATG1 to ATG2 fragment alone showed cytosolic and nuclear localisation accordingly. Staining of HFOBs and mesenchymal stem cells with Trx antibody revealed that Trx was preferentially localised in the nucleus; using an antibody to TrxR it was shown that the enzyme was always colocalized with Trx in mesenchymal stem cells, osteoblast-like cells and chondrocyte like cells. In summary we could characterise the subcellular localisation of the Trx/TrxR system in osteoblasts and mesenchymal stem cells with respect to the expression of TrxR isoforms. The role of the ribonucleotide reductase TrxR in the nucleus remains to be elucidated. Besides its well characterized function in modulation of transcription factor DNA binding, the role in nuclear antioxidative defense and/or DNA processing and repair might be hypothesized.
KW  - Genom
KW  - Thioredoxin
KW  - Thioredoxin Reduktase
KW  - Topoisomerase I
KW  - Tumorinstabilität
KW  - genom
KW  - Thioredoxin
KW  - Thioredoxin reductase
KW  - Topoisomerase I
KW  - Tumorinstability
Y1  - 2003
U6  - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:bvb:20-opus-6999
ER  -