Daniel Blackstock scite author profile

Inspired by the remarkable ability of natural protein switches to sense and respond to a wide range of environmental queues, here we report a strategy to engineer synthetic protein switches by using DNA strand displacement to dynamically organize proteins with highly diverse and complex logic gate architectures. We show that DNA strand displacement can be used to dynamically control the spatial proximity and the corresponding fluorescence resonance energy transfer between two fluorescent proteins. Performing Boolean logic operations enabled the explicit control of protein proximity using multi-input, reversible and amplification architectures. We further demonstrate the power of this technology beyond sensing by achieving dynamic control of an enzyme cascade. Finally, we establish the utility of the approach as a synthetic computing platform that drives the dynamic reconstitution of a split enzyme for targeted prodrug activation based on the sensing of cancer-specific miRNAs.

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Post-Translational Modification of Bionanoparticles as a Modular Platform for Biosensor Assembly

Sun

Chen

Blackstock

et al. 2015

ACS Nano

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Context driven biosensor assembly with modular targeting and detection moieties is gaining significant attentions. Although protein-based nanoparticles have emerged as an excellent platform for biosensor assembly, current strategies of decorating bionanoparticles with targeting and detection moieties often suffer from unfavorable spacing and orientation as well as bionanoparticle aggregation. Herein, we report a highly modular post-translational modification approach for biosensor assembly based on sortase A-mediated ligation. This approach enables the simultaneous modifications of the Bacillus stearothermophilus E2 nanoparticles with different functional moieties for antibody, enzyme, DNA aptamer, and dye decoration. The resulting easy-purification platform offers a high degree of targeting and detection modularity with signal amplification. This flexibility is demonstrated for the detection of both immobilized antigens and cancer cells.

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Detection of RNA Viruses: Current Technologies and Future Perspectives

Cella

Blackstock

Yates

et al. 2013

Crit Rev Eukaryot Gene Expr

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RNA viruses constitute one of the major classes of pathogenic organisms causing human diseases, with varying degrees of severity. This review summarizes the conventional and emerging technologies that are available for the detection of these organisms. Cell culture-based techniques for viral detection have been popular since their inception and continue to be the gold standard against which all other techniques. Over many years, these techniques have undergone some radical changes, reducing the total time needed for detection and improving sensitivity, although even with their reliability and improved features they are being slowly replaced by nucleic acid-based technologies. These molecular detection techniques have revolutionized the area of viral detection by their high sensitivity, selectivity, and short detection time. The majority of nucleic acid-based techniques depend on amplifying viral RNA; however, there are some newer emerging techniques that detect viral RNA in live cells using various configurations of florescent probes. In addition, nucleic acid-based technology has made it possible for multiviral detection with either multiplex polymerase chain reaction assays or microarrays. Every technique described in this review has its own unique abilities, making them indispensable for viral detection. However, we believe that nucleic acid-based technologies will find widespread use after being standardized, limiting other technologies to very specific uses.

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Halo-tag mediated self-labeling of fluorescent proteins to molecular beacons for nucleic acid detection

Blackstock

Chen

2014

Chem. Commun.

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We report here the generation of a fluorescent protein (FP)-based dual molecular beacon (MB) system for nucleic acid detection. Halo-tag mediated conjugation was used for the site-specific decoration of MBs with two different FP fusions, thereby enabling easy detection of target sequences by fluorescence resonance energy transfer or FRET. Enhanced intracellular delivery was demonstrated by simply tethering a well-known TAT peptide sequence to the N-terminus of the fusion proteins.

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Low-dose intravenous and subcutaneous CIS43LS monoclonal antibody for protection against malaria (VRC 612 Part C): a phase 1, adaptive trial

Lyke

Berry

Mason

et al. 2023

The Lancet Infectious Diseases

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