Joseph D Cleveland scite author profile

Joseph D Cleveland

5Publications

9Citation Statements Received

219Citation Statements Given

How they've been cited

How they cite others

111

216

Affiliations

University of Colorado Denver, University of Colorado Anschutz Medical Campus

Publications

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Photo-SNAP-tag, a Light-Regulated Chemical Labeling System

Cleveland

Tucker

2020

ACS Chem. Biol.

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Methods that allow labeling and tracking of proteins have been instrumental for understanding their function. Traditional methods for labeling proteins include fusion to fluorescent proteins or self-labeling chemical tagging systems such as SNAP-tag or Halo-tag. These latter approaches allow bright fluorophores or other chemical moieties to be attached to a protein of interest through a small fusion tag. In this work, we sought to improve the versatility of self-labeling chemical-tagging systems by regulating their activity with light. We used light-inducible dimerizers to reconstitute a split SNAP-tag (modified human O 6 -alkylguanine-DNA-alkyltransferase, hAGT) protein, allowing tight light-dependent control of chemical labeling. In addition, we generated a small split SNAP-tag fragment that can efficiently self-assemble with its complement fragment, allowing high labeling efficacy with a small tag. We envision these tools will extend the versatility and utility of the SNAP-tag chemical system for protein labeling applications.

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Sex-Based Outcomes After Implantation of a Fully Magnetically Levitated Left Ventricular Assist Device

Ramu

Cogswell

Ravichandran

et al. 2022

The Journal of Heart and Lung Transplantation

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Reprogramming the Cleavage Specificity of Botulinum Neurotoxin Serotype B1

et al. 2022

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Proteases with reprogrammed specificity for nonnative substrates are highly desired in synthetic biology and biomedicine. However, generating reprogrammed proteases that are orthogonal and highly specific for a new target has been a major challenge. In this work, we sought to expand the versatility of protease systems by engineering an orthogonal botulinum neurotoxin serotype B (BoNT/B) protease that recognizes an orthogonal substrate. We designed and validated an orthogonal BoNT/B protease system in mammalian cells, combining mutations in the protease with compensatory mutations in the protease substrate and incorporating a truncated target sequence and then demonstrated use of this orthogonal BoNT/B protease-substrate combination to regulate complex transcriptional circuitry in mammalian cells. Transposing this platform into yeast, we demonstrated utility of this approach for in vivo protease evolution. We tested this platform with the newly designed orthogonal protease and then used it in a high-throughput screen to identify novel orthogonal protease/protease substrate combinations. While carrying out this work, we also generated new cleavage reporters that could be used to report botulinum toxin protease activity in mammalian cells using simple fluorescent readouts. We envision that these approaches will expand the applications of botulinum protease in new directions and aid in the development of new reprogrammed proteases.

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Photo‐SNAP‐Tag, a Light‐Regulated SNAP‐Tag Chemical Labeling System

Cleveland

Tucker

2020

The FASEB Journal

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Methods that allow labelling and tracking of proteins during dynamic cellular events have been instrumental for understanding their function. Traditional methods for labeling proteins include fusion to fluorescent proteins or self‐labeling chemical tagging systems such as SNAP‐Tag or Halo‐Tag. These latter approaches allow bright fluorophores or other chemical moieties to be attached to a protein of interest though a small fusion tag. In this work, we sought to improve the versatility of self‐labeling chemical‐tagging systems by regulating their activity with light. We used light‐inducible dimerizers to reconstitute a split SNAP‐Tag (modified human O6‐alkylguanine‐DNA‐alkyltransferase, hAGT) protein, allowing tight light‐dependent control of chemical labeling. In addition, we generated a split SNAP‐Tag version that can efficiently self‐assemble, showing high labeling efficacy. We envision these tools will extend the versatility and utility of the SNAP‐Tag chemical system for protein labeling applications.

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Hemodynamic Response and Periprocedural Right Ventricular Function During a Lateral Thoracotomy versus Median Sternotomy Surgical Approach to Implantation of a Left Ventricular Assist Device - A Pilot Study

Cornwell

Hoffman

Forsmark³

et al. 2022

The Journal of Heart and Lung Transplantation

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