New Results
STING polymer structure reveals mechanisms for activation, hyperactivation, and inhibition
Sabrina L. Ergun, Daniel Ferdandez, Thomas M. Weiss, Lingyin Li
doi: https://doi.org/10.1101/552166
Sabrina L. Ergun
1Department of Biochemistry, Stanford School of Medicine, Stanford University, CA.
Daniel Ferdandez
1Department of Biochemistry, Stanford School of Medicine, Stanford University, CA.
2Stanford Molecular and Structural Knowledge Center, Stanford University, CA.
Thomas M. Weiss
3SLAC National Accelerator Laboratories, Menlo Park, CA.
Lingyin Li
1Department of Biochemistry, Stanford School of Medicine, Stanford University, CA.
4Stanford ChEM-H, Stanford University, CA.
Article usage
Posted February 15, 2019.
STING polymer structure reveals mechanisms for activation, hyperactivation, and inhibition
Sabrina L. Ergun, Daniel Ferdandez, Thomas M. Weiss, Lingyin Li
bioRxiv 552166; doi: https://doi.org/10.1101/552166
Subject Areas
- Biochemistry (11703)
- Bioengineering (8718)
- Bioinformatics (29127)
- Biophysics (14930)
- Cancer Biology (12048)
- Cell Biology (17353)
- Clinical Trials (138)
- Developmental Biology (9406)
- Ecology (14143)
- Epidemiology (2067)
- Evolutionary Biology (18266)
- Genetics (12219)
- Genomics (16765)
- Immunology (11841)
- Microbiology (28003)
- Molecular Biology (11551)
- Neuroscience (60804)
- Paleontology (450)
- Pathology (1864)
- Pharmacology and Toxicology (3229)
- Physiology (4939)
- Plant Biology (10383)
- Synthetic Biology (2877)
- Systems Biology (7333)
- Zoology (1642)