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CRISPR Based Synthetic Transcription Factors: The Future of Transcriptional Therapeutics

Description
Pinpoint control over endogenous gene expression in vivo has long been a fevered dream for clinicians and researchers alike. With the recent repurposing of programmable, RNA-guided DNA endonucleases from the CRISPR bacterial immune system, this dream is becoming a powerful reality. Engineered CRISPR based transcriptional regulators have enabled researchers to

Pinpoint control over endogenous gene expression in vivo has long been a fevered dream for clinicians and researchers alike. With the recent repurposing of programmable, RNA-guided DNA endonucleases from the CRISPR bacterial immune system, this dream is becoming a powerful reality. Engineered CRISPR based transcriptional regulators have enabled researchers to perturb endogenous gene expression in vivo, allowing for the therapeutic reprogramming of cell and tissue behavior. However, for this technology to be of maximal use, a variety of technological hurdles still need to be addressed. Here, we discuss recent advances and integrative strategies that can help pave the way towards a new class of transcriptional therapeutics.
ContributorsPandelakis, Matthew (Author) / Ebrahimkhani, Mohammad (Thesis director) / Kiani, Samira (Committee member) / School of Life Sciences (Contributor) / Barrett, The Honors College (Contributor)
Created2019-05