Skip to content
Furst Lab
Furst Lab
  • Home
  • People
  • Research
    • Human Health
    • Environmental Remediation
    • Sustainability
  • Publications
  • Values
  • In Action
  • Contact

DNA hybridization to control cellular interactions

2019 April

DNA hybridization to control cellular interactions
Trends in Biochemical Sciences
Furst, A. L.; Klass, S. H.; Francis, M. B.

Posted in DNA Programmed Cell Assembly
Post navigation
Toward multimarker and functional assays from crude cell lysates: controlling spacing and signal amplification in DNA-CT–based bioelectrochemical devices, →
← A Thylakoid-Bound and Redox Active Rubredoxin (RBD1) is Essential in de novo Assembly and Repair of Photosystem II Complexes in Photosynthetic Eukaryotes

News

We have open positions for postdocs, grad and undergrad students.
[More Info]

Recent Publications

  • 35+1 challenges in materials science being tackled by PIs under 35(ish) in 2023 August 2, 2023
  • Electrochemical Characterization of Biomolecular Electron Transfer at Conductive Polymer Interfaces February 1, 2023
  • Carbon Electrode-Based Biosensing Enabled by Biocompatible Surface Modification with DNA and Proteins January 12, 2023

  • Mailing Address

    Massachusetts Institute of Technology
    Department of Chemical Engineering
    77 Massachusetts Avenue
    Building 66-462
    Cambridge, Massachusetts 02139

  • General Inquires

    Phone: (617) 254-4677
    Email: afurst@mit.edu
    Accessibility

    Follow us on Twitter

  • Campus Map & Direction


© 2019 - 2023 MIT : Department of Chemical Engineering