224 results on '"Lillig, Christopher Horst"'
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2. Molecular dynamics simulations and in vitro analysis of the CRMP2 thiol switch
3. Functional plasticity in the thioredoxin family: FeS-thio- and glutaredoxins
4. Contributors
5. Thiol Redox Regulation
6. Redox Regulation of Cytoskeletal Dynamics
7. Redox Regulation of Differentiation and De-Differentiation
8. Paracrine regulation and improvement of β-cell function by thioredoxin
9. Thioredoxin 1 is upregulated in the bone and bone marrow following experimental myocardial infarction: evidence for a remote organ response
10. Substrate specificity of thioredoxins and glutaredoxins – towards a functional classification
11. Breakdown of Arabidopsis thaliana thioredoxins and glutaredoxins based on electrostatic similarity–Leads to common and unique interaction partners and functions
12. Characterization of Human Glutaredoxin 2 as Iron-Sulfur Protein: A Possible Role as Redox Sensor
13. Short Interfering RNA-Mediated Silencing of Glutaredoxin 2 Increases the Sensitivity of HeLa Cells toward Doxorubicin and Phenylarsine Oxide
14. Molecular basis for the distinct functions of redox-active and FeS-transfering glutaredoxins
15. Role of GSH and Iron-Sulfur Glutaredoxins in Iron Metabolism—Review
16. Linkage of inflammation and oxidative stress via release of glutathionylated peroxiredoxin-2, which acts as a danger signal
17. Cytosolic glutaredoxin 1 is upregulated in AMD and controls retinal pigment epithelial cells proliferation via β-catenin
18. Iron‐sulfur glutaredoxin 2 protects oligodendrocytes against damage induced by nitric oxide release from activated microglia
19. Cysteine Oxidation Targets Peroxiredoxins 1 and 2 for Exosomal Release through a Novel Mechanism of Redox-Dependent Secretion
20. Vertebrate-specific glutaredoxin is essential for brain development
21. Antioxidants in Neurodegeneration
22. Cytosolic Monothiol Glutaredoxins Function in Intracellular Iron Sensing and Trafficking via Their Bound Iron-Sulfur Cluster
23. Molecular Basis for the Interactions of Human Thioredoxins with Their Respective Reductases
24. Nucleoredoxin Plays a Key Role in the Maintenance of Retinal Pigmented Epithelium Differentiation.
25. The reducing activity of glutaredoxin 3 toward cytoplasmic substrate proteins is restricted by methionine 43
26. Thiol-based mechanisms of the thioredoxin and glutaredoxin systems: implications for diseases in the cardiovascular system
27. Thioredoxin 1 is upregulated in the bone and bone marrow following experimental myocardial infarction: evidence for a remote organ response
28. Receptor-induced Redox Signalling Relay – From Signal to Effector
29. Role of Electrostatic Interactions for the Prediction of Function and Specificity in Redox Protein-protein Interactions
30. FeS-thioredoxin regulates suppression of hypoxia-induced factor 2α through iron regulatory protein 1
31. The cytosolic isoform of glutaredoxin 2 promotes cell migration and invasion
32. Evaluation of Glutaredoxin 1 as a Novel Marker of Renal Damage after Ischemia‐Reperfusion Injury in Mice
33. Signal-regulated oxidation of proteins via MICAL
34. The Thioredoxin Family Proteins: Histopathological Time Course Study in the Asphyctic Male Rat Brain
35. THE MITOCHONDRIAL GLUTAREDOXIN 2 CAN USE REDUCING EQUIVALENTS FROM EITHER GLUTATHIONE OR THIOREDOXIN REDUCTASE: 26
36. Nucleoredoxin-Dependent Targets and Processes in Neuronal Cells
37. Signal-regulated oxidation of proteins via MICAL.
38. Glutathione, Glutaredoxins, and Iron
39. Expression of Redox Proteins in the Heart After Myocardial Infarction in Rats
40. CRMP2: Extending a crystal structure up to its control unit with in silico methods
41. CRMP2: Extending the structure determination
42. Neuronal Damage Induced by Perinatal Asphyxia Is Attenuated by Postinjury Glutaredoxin-2 Administration
43. Molecular dynamics simulations and in vitro analysis of the CRMP2 thiol switch
44. In silico structure prediction of CRMP2 with protein folding of missing C-term sequence
45. Cytosolic Monothiol Glutaredoxins Function in Intracellular Iron Sensing and Trafficking via Their Bound Iron-Sulfur Cluster
46. Redoxins in peripheral neurons after sciatic nerve injury
47. Redox atlas of the mouse: Immunohistochemical detection of glutaredoxin-, peroxiredoxin-, and thioredoxin-family proteins in various tissues of the laboratory mouse
48. 154 - Expression of Redox Proteins in the Heart After Myocardial Infarction in Rats
49. Redox regulation of differentiation and de-differentiation
50. Redox regulation of cytoskeletal dynamics during differentiation and de-differentiation
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