Publications

Found 26 results
Filters: Author is Kranzusch, Philip J  [Clear All Filters]
Journal Article
Whiteley, A. T., Eaglesham, J. B., Mann, C. C. de Olive, Morehouse, B. R., Lowey, B., Nieminen, E. A., Danilchanka, O., King, D. S., S Y Lee, A., Mekalanos, J. J., and Kranzusch, P. J. (2019) Bacterial cGAS-like enzymes synthesize diverse nucleotide signals. Nature. 10.1038/s41586-019-0953-5
Johnson, A. G., Wein, T., Mayer, M. L., Duncan-Lowey, B., Yirmiya, E., Oppenheimer-Shaanan, Y., Amitai, G., Sorek, R., and Kranzusch, P. J. (2022) Bacterial gasdermins reveal an ancient mechanism of cell death. Science. 375, 221-225
Brogan, A. P., Habib, C., Hobbs, S. J., Kranzusch, P. J., and Rudner, D. Z. (2023) Bacterial SEAL domains undergo autoproteolysis and function in regulated intramembrane proteolysis. Proc Natl Acad Sci U S A. 120, e2310862120
Lowey, B., Whiteley, A. T., Keszei, A. F. A., Morehouse, B. R., Mathews, I. T., Antine, S. P., Cabrera, V. J., Kashin, D., Niemann, P., Jain, M., Schwede, F., Mekalanos, J. J., Shao, S., S Y Lee, A., and Kranzusch, P. J. (2020) CBASS Immunity Uses CARF-Related Effectors to Sense 3'-5'- and 2'-5'-Linked Cyclic Oligonucleotide Signals and Protect Bacteria from Phage Infection. Cell. 182, 38-49.e17
Zhou, W., Mohr, L., Maciejowski, J., and Kranzusch, P. J. (2021) cGAS phase separation inhibits TREX1-mediated DNA degradation and enhances cytosolic DNA sensing. Mol Cell. 81, 739-755.e7
Slavik, K. M., Morehouse, B. R., Ragucci, A. E., Zhou, W., Ai, X., Chen, Y., Li, L., Wei, Z., Bähre, H., König, M., Seifert, R., S Y Lee, A., Cai, H., Imler, J. - L., and Kranzusch, P. J. (2021) cGAS-like receptors sense RNA and control 3'2'-cGAMP signaling in Drosophila. Nature. 10.1038/s41586-021-03743-5
Li, Y., Slavik, K. M., Toyoda, H. C., Morehouse, B. R., Mann, C. C. de Olive, Elek, A., Levy, S., Wang, Z., Mears, K. S., Liu, J., Kashin, D., Guo, X., Mass, T., Sebé-Pedrós, A., Schwede, F., and Kranzusch, P. J. (2023) cGLRs are a diverse family of pattern recognition receptors in innate immunity. Cell. 186, 3261-3276.e20
Tal, N., Morehouse, B. R., Millman, A., Stokar-Avihail, A., Avraham, C., Fedorenko, T., Yirmiya, E., Herbst, E., Brandis, A., Mehlman, T., Oppenheimer-Shaanan, Y., Keszei, A. F. A., Shao, S., Amitai, G., Kranzusch, P. J., and Sorek, R. (2021) Cyclic CMP and cyclic UMP mediate bacterial immunity against phages. Cell. 184, 5728-5739.e16
Duncan-Lowey, B., McNamara-Bordewick, N. K., Tal, N., Sorek, R., and Kranzusch, P. J. (2021) Effector-mediated membrane disruption controls cell death in CBASS antiphage defense. Mol Cell. 10.1016/j.molcel.2021.10.020
Richmond-Buccola, D., Hobbs, S. J., Garcia, J. M., Toyoda, H., Gao, J., Shao, S., S Y Lee, A., and Kranzusch, P. J. (2024) A large-scale type I CBASS antiphage screen identifies the phage prohead protease as a key determinant of immune activation and evasion. Cell Host Microbe. 32, 1074-1088.e5
Dumitrescu, D. G., Gordon, E. M., Kovalyova, Y., Seminara, A. B., Duncan-Lowey, B., Forster, E. R., Zhou, W., Booth, C. J., Shen, A., Kranzusch, P. J., and Hatzios, S. K. (2022) A microbial transporter of the dietary antioxidant ergothioneine. Cell. 185, 4526-4540.e18
Mann, C. C. de Olive, Orzalli, M. H., King, D. S., Kagan, J. C., S Y Lee, A., and Kranzusch, P. J. (2019) Modular Architecture of the STING C-Terminal Tail Allows Interferon and NF-κB Signaling Adaptation.. Cell Rep. 27, 1165-1175.e5
Govande, A. A., Duncan-Lowey, B., Eaglesham, J. B., Whiteley, A. T., and Kranzusch, P. J. (2021) Molecular basis of CD-NTase nucleotide selection in CBASS anti-phage defense. Cell Rep. 35, 109206
Hobbs, S. J., Wein, T., Lu, A., Morehouse, B. R., Schnabel, J., Leavitt, A., Yirmiya, E., Sorek, R., and Kranzusch, P. J. (2022) Phage anti-CBASS and anti-Pycsar nucleases subvert bacterial immunity. Nature. 10.1038/s41586-022-04716-y
Yirmiya, E., Leavitt, A., Lu, A., Ragucci, A. E., Avraham, C., Osterman, I., Garb, J., Antine, S. P., Mooney, S. E., Hobbs, S. J., Kranzusch, P. J., Amitai, G., and Sorek, R. (2024) Phages overcome bacterial immunity via diverse anti-defence proteins. Nature. 625, 352-359
Govande, A. A., Babnis, A. W., Urban, C., Habjan, M., Hartmann, R., Kranzusch, P. J., and Pichlmair, A. (2023) RNase L-activating 2'-5' oligoadenylates bind ABCF1, ABCF3 and Decr-1. J Gen Virol. 10.1099/jgv.0.001890
Morehouse, B. R., Govande, A. A., Millman, A., Keszei, A. F. A., Lowey, B., Ofir, G., Shao, S., Sorek, R., and Kranzusch, P. J. (2020) STING cyclic dinucleotide sensing originated in bacteria. Nature. 10.1038/s41586-020-2719-5
Antine, S. P., Johnson, A. G., Mooney, S. E., Leavitt, A., Mayer, M. L., Yirmiya, E., Amitai, G., Sorek, R., and Kranzusch, P. J. (2023) Structural basis of Gabija anti-phage defence and viral immune evasion. Nature. 10.1038/s41586-023-06855-2
Zhou, W., Richmond-Buccola, D., Wang, Q., and Kranzusch, P. J. (2022) Structural basis of human TREX1 DNA degradation and autoimmune disease. Nat Commun. 13, 4277
Boys, I. N., Johnson, A. G., Quinlan, M. R., Kranzusch, P. J., and Elde, N. C. (2023) Structural homology screens reveal host-derived poxvirus protein families impacting inflammasome activity. Cell Rep. 42, 112878
Boys, I. N., Johnson, A. G., Quinlan, M., Kranzusch, P. J., and Elde, N. C. (2023) Structural homology screens reveal poxvirus-encoded proteins impacting inflammasome-mediated defenses. bioRxiv. 10.1101/2023.02.26.529821
Lau, R. K., Ye, Q., Birkholz, E. A., Berg, K. R., Patel, L., Mathews, I. T., Watrous, J. D., Ego, K., Whiteley, A. T., Lowey, B., Mekalanos, J. J., Kranzusch, P. J., Jain, M., Pogliano, J., and Corbett, K. D. (2020) Structure and Mechanism of a Cyclic Trinucleotide-Activated Bacterial Endonuclease Mediating Bacteriophage Immunity. Mol Cell. 10.1016/j.molcel.2019.12.010
Zhou, W., Whiteley, A. T., Mann, C. C. de Olive, Morehouse, B. R., Nowak, R. P., Fischer, E. S., Gray, N. S., Mekalanos, J. J., and Kranzusch, P. J. (2018) Structure of the Human cGAS-DNA Complex Reveals Enhanced Control of Immune Surveillance. Cell. 174, 300-311.e11
Eaglesham, J. B., McCarty, K. L., and Kranzusch, P. J. (2020) Structures of diverse poxin cGAMP nucleases reveal a widespread role for cGAS-STING evasion in host-pathogen conflict. Elife. 10.7554/eLife.59753
Eaglesham, J. B., Pan, Y., Kupper, T. S., and Kranzusch, P. J. (2019) Viral and metazoan poxins are cGAMP-specific nucleases that restrict cGAS-STING signalling. Nature. 566, 259-263

Pages