214 results on '"Zillinger, Thomas"'
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2. Chronic endoplasmic reticulum stress in myotonic dystrophy type 2 promotes autoimmunity via mitochondrial DNA release
3. C-terminal variants in CDC42 drive type I interferon-dependent autoinflammation in NOCARH syndrome reversible by ruxolitinib
4. Complexing CpG adjuvants with cationic liposomes enhances vaccine-induced formation of liver TRM cells
5. Recessive NLRC4-Autoinflammatory Disease Reveals an Ulcerative Colitis Locus
6. Deficiency in coatomer complex I causes aberrant activation of STING signalling
7. Absence of cGAS-mediated type I IFN responses in HIV-1–infected T cells
8. Varicella zoster virus‐induced autophagy in human neuronal and hematopoietic cells exerts antiviral activity.
9. MAPK-pathway inhibition mediates inflammatory reprogramming and sensitizes tumors to targeted activation of innate immunity sensor RIG-I
10. An epigenetic GPI anchor defect impairs TLR4 signaling in the B cell transdifferentiation model for primary human monocytes BLaER1
11. Author Correction: An epigenetic GPI anchor defect impairs TLR4 signaling in the B cell transdifferentiation model for primary human monocytes BLaER1
12. Malaria parasites both repress host CXCL10 and use it as a cue for growth acceleration
13. A conserved isoleucine in the binding pocket of RIG-I controls immune tolerance to mitochondrial RNA
14. Supplementary Figures 8-9 from Targeted Activation of RNA Helicase Retinoic Acid–Inducible Gene-I Induces Proimmunogenic Apoptosis of Human Ovarian Cancer Cells
15. Supplementary Figures 2-3 from Targeted Activation of RNA Helicase Retinoic Acid–Inducible Gene-I Induces Proimmunogenic Apoptosis of Human Ovarian Cancer Cells
16. Supplementary Methods, Tables 1-4, Figure Legends 1-9 from Targeted Activation of RNA Helicase Retinoic Acid–Inducible Gene-I Induces Proimmunogenic Apoptosis of Human Ovarian Cancer Cells
17. Supplementary Figures 4-7 from Targeted Activation of RNA Helicase Retinoic Acid–Inducible Gene-I Induces Proimmunogenic Apoptosis of Human Ovarian Cancer Cells
18. Supplementary Figure 1 from Targeted Activation of RNA Helicase Retinoic Acid–Inducible Gene-I Induces Proimmunogenic Apoptosis of Human Ovarian Cancer Cells
19. Data from Targeted Activation of RNA Helicase Retinoic Acid–Inducible Gene-I Induces Proimmunogenic Apoptosis of Human Ovarian Cancer Cells
20. Inhibition of cellular RNA methyltransferase abrogates influenza virus capping and replication
21. NLRP3-Independent Inflammasome Activation By Proteasome Inhibitors
22. Correction: Monocyte-derived macrophages aggravate pulmonary vasculitis via cGAS/STING/IFN-mediated nucleic acid sensing
23. Deficiency for SAMHD1 activates MDA5 in a cGAS/STING-dependent manner
24. RIG-I activation primes and trains innate antiviral immune memory
25. SAMHD1 controls innate immunity by regulating condensation of immunogenic self RNA
26. Induction of Interferon-Stimulated Genes Correlates with Reduced Growth of Influenza A Virus in Lungs after RIG-I Agonist Treatment of Ferrets
27. Monocyte-derived macrophages aggravate pulmonary vasculitis via cGAS/STING/IFN-mediated nucleic acid sensing
28. A conserved isoleucine in the binding pocket of RIG-I controls immune tolerance to mitochondrial RNA
29. Retinoic Acid–Inducible Gene I Activation Inhibits Human Respiratory Syncytial Virus Replication in Mammalian Cells and in Mouse and Ferret Models of Infection
30. Expression of a Functional Mx1 Protein Is Essential for the Ability of RIG-I Agonist Prophylaxis to Provide Potent and Long-Lasting Protection in a Mouse Model of Influenza A Virus Infection
31. Chronic ER stress promotes cGAS/mtDNA-induced autoimmunity via ATF6 in myotonic dystrophy type 2
32. cGAS/STING-DEPENDENT SENSING OF ENDOGENOUS RNA
33. Inhibition of cellular RNA methyltransferase abrogates influenza virus capping and replication.
34. Sequence-specific activation of the DNA sensor cGAS by Y-form DNA structures as found in primary HIV-1 cDNA
35. Animal models of SARS-CoV-2 and COVID-19 for the development of prophylactic and therapeutic interventions
36. Abstract LBA010: Therapeutic stimulation of nucleic acid receptor RIG-I enhances efficacy of kinase inhibitor treatment in oncogene-driven tumors
37. Recessive NLRC4-Autoinflammatory Disease Reveals an Ulcerative Colitis Locus
38. Host-cell sensors for Plasmodium activate innate immunity against liver-stage infection
39. Antiviral immunity via RIG-I-mediated recognition of RNA bearing 5′-diphosphates
40. ADAR1 edits the SenZ and SenZ-ability of RNA
41. Exonuclease TREX1 also Has a Sweet Tooth
42. A Conserved Histidine in the RNA Sensor RIG-I Controls Immune Tolerance to N1-2′O-Methylated Self RNA
43. Human IFITM3 restricts chikungunya virus and Mayaro virus infection and is susceptible to virus-mediated counteraction
44. RIG-I-mediated protection from SARS-CoV-2 virus replication
45. RIG-I-vermittelte Protektion gegenüber SARS-CoV-2 Virusreplikation
46. MAPK-pathway inhibition mediates inflammatory reprogramming and sensitizes tumors to targeted activation of innate immunity sensor RIG-I
47. Malaria parasites both repress host CXCL10 and use it as a cue for growth acceleration
48. An epigenetic GPI anchor defect impairs TLR4 signaling in the B cell transdifferentiation model for primary human monocytes BLaER1
49. Immune Sensing of Synthetic, Bacterial, and Protozoan RNA by Toll-like Receptor 8 Requires Coordinated Processing by RNase T2 and RNase 2
50. Oxidative Damage of DNA Confers Resistance to Cytosolic Nuclease TREX1 Degradation and Potentiates STING-Dependent Immune Sensing
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