Thomas Gilmore, PhD

Professor, Biochemistry & Cell Biology

Thomas Gilmore
617.353.5444
gilmore@bu.edu
5 Cummington St
View full profile at BUMC

Biography

Thomas D. Gilmore, PhD is a Biologist with extensive experience in the fields of signal transduction, cancer, molecular ecology, and cell biology. He has received many awards for his research and teaching including the Metcalf Cup and Prize, Boston University’s highest award for excellence in teaching.Over the course of his career, Dr. Gilmore has received hundreds of thousands of dollars in funding from the NIH for his research.

Other Positions

  • Member, Genome Science Institute, Boston University
  • Member, Evans Center for Interdisciplinary Biomedical Research, Boston University
  • Member, BU-BMC Cancer Center, Boston University

Websites

Education

  • University of California, Berkeley, PhD
  • Princeton University, AB

Publications

  • Published on 2/28/2024

    Valadez-Ingersoll M, Aguirre Carrión PJ, Bodnar CA, Desai NA, Gilmore TD, Davies SW. Starvation differentially affects gene expression, immunity and pathogen susceptibility across symbiotic states in a model cnidarian. Proc Biol Sci. 2024 Feb 28; 291(2017):20231685. PMID: 38412969.

    Read at: PubMed
  • Published on 10/27/2023

    DiRusso CJ, DeMaria AM, Wong J, Wang W, Jordanides JJ, Whitty A, Allen KN, Gilmore TD. A conserved core region of the scaffold NEMO is essential for signal-induced conformational change and liquid-liquid phase separation. J Biol Chem. 2023 Dec; 299(12):105396. PMID: 37890781.

    Read at: PubMed
  • Published on 7/7/2023

    Carrión PJA, Desai N, Brennan JJ, Fifer JE, Siggers T, Davies SW, Gilmore TD. Starvation decreases immunity and immune regulatory factor NF-?B in the starlet sea anemone Nematostella vectensis. Commun Biol. 2023 Jul 07; 6(1):698. PMID: 37420095.

    Read at: PubMed
  • Published on 5/25/2023

    DiRusso CJ, DeMaria AM, Wong J, Jordanides JJ, Whitty A, Allen KN, Gilmore TD. A Conserved Core Region of the Scaffold NEMO is Essential for Signal-induced Conformational Change and Liquid-liquid Phase Separation. bioRxiv. 2023 May 25. PMID: 37292615.

    Read at: PubMed
  • Published on 10/31/2022

    Williams LM, Gilmore TD. An innate ability: How do basal invertebrates manage their chronic exposure to microbes? PLoS Pathog. 2022 Oct; 18(10):e1010897. PMID: 36315570.

    Read at: PubMed
  • Published on 10/20/2022

    DiRusso CJ, Dashtiahangar M, Gilmore TD. Scaffold proteins as dynamic integrators of biological processes. J Biol Chem. 2022 Dec; 298(12):102628. PMID: 36273588.

    Read at: PubMed
  • Published on 12/16/2021

    Williams LM, Sridhar S, Samaroo J, Peart J, Adindu EK, Addanki A, DiRusso CJ, Aguirre Carrión PJ, Rodriguez-Sastre N, Siggers T, Gilmore TD. Comparison of NF-?B from the protists Capsaspora owczarzaki and Acanthoeca spectabilis reveals extensive evolutionary diversification of this transcription factor. Commun Biol. 2021 12 16; 4(1):1404. PMID: 34916615.

    Read at: PubMed
  • Published on 7/25/2021

    Gilmore TD. NF-?B and Human Cancer: What Have We Learned over the Past 35 Years? Biomedicines. 2021 Jul 25; 9(8). PMID: 34440093.

    Read at: PubMed
  • Published on 1/1/2021

    Aguirre Carrión PJ, Williams LM, Gilmore TD. Molecular and Biochemical Approaches to Study the Evolution of NF-?B Signaling in Basal Metazoans. Methods Mol Biol. 2021; 2366:67-91. PMID: 34236633.

    Read at: PubMed
  • Published on 7/14/2020

    Williams LM, Gilmore TD. Looking Down on NF-?B. Mol Cell Biol. 2020 07 14; 40(15). PMID: 32393609.

    Read at: PubMed

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