Joel S. Bader
Affiliations: | 1991 | Johns Hopkins University, Baltimore, MD |
Area:
Systems Biology, Synthetic Biology, Computational Biology, BioinformaticsWebsite:
https://www.bme.jhu.edu/people/faculty/joel-bader/Google:
"Joel Samuel Bader" OR "Joel S. Bader"Bio:
https://www.hopkinsmedicine.org/profiles/details/joel-bader
https://baderzone.org/
https://scholar.google.com/citations?user=-dyxvHoAAAAJ&hl=en
https://books.google.com/books?id=82hLAQAAMAAJ
Mean distance: (not calculated yet)
Parents
Sign in to add mentor| David Chandler | grad student | 1991 | UC Berkeley | |
| (Solvation and Electron Transfer Reaction Dynamics) | ||||
Children
Sign in to add trainee| Yongjin Park | grad student | (GenetiTree) | |
| Balaji Veeramani | grad student | 2011 | Johns Hopkins |
| Hailiang Huang | grad student | 2012 | Johns Hopkins |
| Giovanni Stracquadanio | post-doc | 2010-2014 | Johns Hopkins (Computational Biology Tree) |
| Andrei Kucharavy | post-doc | 2018-2018 | Johns Hopkins (Cell Biology Tree) |
BETA: Related publications
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Publications
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| Williams TC, Kroukamp H, Xu X, et al. (2023) Parallel laboratory evolution and rational debugging reveal genomic plasticity to synthetic chromosome XIV defects. Cell Genomics. 3: 100379 |
| McCulloch LH, Sambasivam V, Hughes AL, et al. (2023) Consequences of a telomerase-related fitness defect and chromosome substitution technology in yeast strains. Cell Genomics. 3: 100419 |
| Blount BA, Lu X, Driessen MRM, et al. (2023) Synthetic yeast chromosome XI design provides a testbed for the study of extrachromosomal circular DNA dynamics. Cell Genomics. 3: 100418 |
| Foo JL, Kitano S, Susanto AV, et al. (2023) Establishing chromosomal design-build-test-learn through a synthetic chromosome and its combinatorial reconfiguration. Cell Genomics. 3: 100435 |
| Lauer S, Luo J, Lazar-Stefanita L, et al. (2023) Context-dependent neocentromere activity in synthetic yeast chromosome . Cell Genomics. 3: 100437 |
| Shen Y, Gao F, Wang Y, et al. (2023) Dissecting aneuploidy phenotypes by constructing Sc2.0 chromosome VII and SCRaMbLEing synthetic disomic yeast. Cell Genomics. 3: 100364 |
| Luo J, Vale-Silva LA, Raghavan AR, et al. (2023) Synthetic chromosome fusion: Effects on mitotic and meiotic genome structure and function. Cell Genomics. 3: 100439 |
| Zhang W, Lazar-Stefanita L, Yamashita H, et al. (2023) Manipulating the 3D organization of the largest synthetic yeast chromosome. Molecular Cell |
| Zhao Y, Coelho C, Hughes AL, et al. (2023) Debugging and consolidating multiple synthetic chromosomes reveals combinatorial genetic interactions. Cell |
| Fukuda M, Cai J, Bader JS, et al. (2023) Pervasive RNA folding is crucial for narnavirus genome maintenance. Proceedings of the National Academy of Sciences of the United States of America. 120: e2304082120 |