Ian J. Mohr, PhD
Affiliations: | Microbiology | New York University, New York, NY, United States |
Area:
herpes virus, PKR signalling, translational control, viral genetics, latencyWebsite:
http://www.med.nyu.edu/biosketch/mohri01/publicationsGoogle:
"Ian Mohr"Mean distance: 17.37 (cluster 32)
Children
Sign in to add trainee| Jeremy S. Poppers | grad student | 2002 | NYU |
| Matthew C. Mulvey | grad student | 2005 | NYU |
| Carolina Arias | grad student | 2008 | NYU |
| Cesar A. Perez | grad student | 2008 | NYU |
| Vladimir Camarena | grad student | 1994-2010 | NYU |
| Mariko Kobayashi | grad student | 2012 | NYU |
| Uyanga Chuluunbaatar | grad student | 2013 | NYU |
| Ping-kun Hsieh | grad student | 2013 | NYU |
| Caleb C. McKinney | grad student | 2013 | NYU |
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Publications
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| Burgess HM, Grande R, Riccio S, et al. (2023) CCR4-NOT differentially controls host versus virus poly(a)-tail length and regulates HCMV infection. Embo Reports. 24: e56327 |
| Ouwendijk WJD, Roychoudhury P, Cunningham AL, et al. (2023) Reanalysis of single-cell RNA sequencing data does not support herpes simplex virus 1 latency in non-neuronal ganglionic cells in mice. Biorxiv : the Preprint Server For Biology |
| Sanders LS, Comar CE, Srinivas KP, et al. (2023) Herpes Simplex Virus-1 ICP27 Nuclear Export Signal Mutants Exhibit Cell Type-Dependent Deficits in Replication and ICP4 Expression. Journal of Virology. e0195722 |
| Wilson AC, Mohr I. (2022) Control of animal virus replication by RNA adenosine methylation. Advances in Virus Research. 112: 87-114 |
| Thompson L, Depledge DP, Burgess HM, et al. (2022) An eIF3d-dependent switch regulates HCMV replication by remodeling the infected cell translation landscape to mimic chronic ER stress. Cell Reports. 39: 110767 |
| Ly M, Burgess HM, Shah SB, et al. (2022) Vaccinia virus D10 has broad decapping activity that is regulated by mRNA splicing. Plos Pathogens. 18: e1010099 |
| Burgess HM, Vink EI, Mohr I. (2022) Minding the message: tactics controlling RNA decay, modification, and translation in virus-infected cells. Genes & Development. 36: 108-132 |
| Hu HL, Srinivas KP, Wang S, et al. (2021) Single-cell transcriptomics identifies Gadd45b as a regulator of herpesvirus-reactivating neurons. Embo Reports. e53543 |
| Vink EI, Andrews J, Duffy C, et al. (2021) Preventing translational inhibition from ribosomal protein insufficiency by a herpes simplex virus-encoded ribosome-associated protein. Proceedings of the National Academy of Sciences of the United States of America. 118 |
| Srinivas KP, Depledge DP, Abebe JS, et al. (2021) Widespread remodeling of the mA RNA-modification landscape by a viral regulator of RNA processing and export. Proceedings of the National Academy of Sciences of the United States of America. 118 |