Education
- PhD, 1984, University of Wisconsin, Madison
- BS, 1979, Biochemistry, Brown University
Research Summary
We use a variety of approaches to investigate several of the fundamental and conserved processes used by bacteria for propagation and growth, adaptation to stresses, and acquisition of new genes and traits via horizontal gene transfer. Our long term goals are to understand many of the molecular mechanisms and regulation underlying basic cellular processes in bacteria. Our organism of choice for these studies is usually the Gram positive bacterium Bacillus subtilis. Our current efforts are focused in two important areas of biology: 1) The control of horizontal gene transfer, specifically the lifecycle, function, and control of integrative and conjugative elements (ICEs). These elements are widespread in bacteria and contribute greatly to the spread of antibiotic resistances between organisms. 2) Regulation of the initiation of DNA replication and the connections between replication and gene expression, with particular focus on the conserved replication initiator and transcription factor DnaA. This work is directly related to mechanisms controlling bacterial growth, survival, and stress responses.Awards
- National Academy of Sciences, 2014
- American Academy of Arts and Sciences, 2008
- American Academy of Microbiology 1998
- Eli Lilly Company Research Award, 1997
Recent Publications
- It's complicated: relationships between integrative and conjugative elements and their bacterial hosts. Gomberg, AF, Grossman, AD. 2024. Curr Opin Microbiol 82, 102556.
doi: 10.1016/j.mib.2024.102556PMID:39423563 - Regulation of the SOS response and homologous recombination by an integrative and conjugative element. Heredia, AG, Grossman, AD. 2024. bioRxiv , .
doi: 10.1101/2024.10.11.617942PMID:39416196 - Activation and modulation of the host response to DNA damage by an integrative and conjugative element. McKeithen-Mead, S, Anderson, ME, García-Heredia, A, Grossman, AD. 2024. bioRxiv , .
doi: 10.1101/2024.10.09.617469PMID:39416164 - Timing of integration into the chromosome is critical for the fitness of an integrative and conjugative element and its bacterial host. McKeithen-Mead, SA, Grossman, AD. 2023. PLoS Genet 19, e1010524.
doi: 10.1371/journal.pgen.1010524PMID:36780569 - Beneficial and detrimental genes in the cellular response to replication arrest. Schons-Fonseca, L, Lazova, MD, Smith, JL, Anderson, ME, Grossman, AD. 2022. PLoS Genet 18, e1010564.
doi: 10.1371/journal.pgen.1010564PMID:36574412 - TnSmu1 is a functional integrative and conjugative element in Streptococcus mutans that when expressed causes growth arrest of host bacteria. McLellan, LK, Anderson, ME, Grossman, AD. 2022. Mol Microbiol 118, 652-669.
doi: 10.1111/mmi.14992PMID:36268794 - Multiple mechanisms for overcoming lethal over-initiation of DNA replication. Anderson, ME, Smith, JL, Grossman, AD. 2022. Mol Microbiol 118, 426-442.
doi: 10.1111/mmi.14976PMID:36053906 - Biology and engineering of integrative and conjugative elements: Construction and analyses of hybrid ICEs reveal element functions that affect species-specific efficiencies. Bean, EL, Herman, C, Anderson, ME, Grossman, AD. 2022. PLoS Genet 18, e1009998.
doi: 10.1371/journal.pgen.1009998PMID:35584135 - A CRISPR interference screen reveals a role for cell wall teichoic acids in conjugation in Bacillus subtilis. Harden, MM, Anderson, ME, Grossman, AD. 2022. Mol Microbiol 117, 1366-1383.
doi: 10.1111/mmi.14914PMID:35490406 - Interactions between mobile genetic elements: An anti-phage gene in an integrative and conjugative element protects host cells from predation by a temperate bacteriophage. Johnson, CM, Harden, MM, Grossman, AD. 2022. PLoS Genet 18, e1010065.
doi: 10.1371/journal.pgen.1010065PMID:35157704