Gil Alterovitz scite author profile

Besides genome editing, CRISPR-Cas12a has recently been used for DNA detection applications with attomolar sensitivity but, to our knowledge, it has not been used for the detection of small molecules. Bacterial allosteric transcription factors (aTFs) have evolved to sense and respond sensitively to a variety of small molecules to benefit bacterial survival. By combining the single-stranded DNA cleavage ability of CRISPR-Cas12a and the competitive binding activities of aTFs for small molecules and double-stranded DNA, here we develop a simple, supersensitive, fast and high-throughput platform for the detection of small molecules, designated CaT-SMelor ( C RISPR-Cas12a- and aT F-mediated s mall m ol e cu l e detect or ). CaT-SMelor is successfully evaluated by detecting nanomolar levels of various small molecules, including uric acid and p -hydroxybenzoic acid among their structurally similar analogues. We also demonstrate that our CaT-SMelor directly measured the uric acid concentration in clinical human blood samples, indicating a great potential of CaT-SMelor in the detection of small molecules.

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Genomic characterization of Wilms' tumor suppressor 1 targets in nephron progenitor cells during kidney development

Hartwig

Pandey

et al. 2010

116

121

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SUMMARYThe Wilms' tumor suppressor 1 (WT1) gene encodes a DNA-and RNA-binding protein that plays an essential role in nephron progenitor differentiation during renal development. To identify WT1 target genes that might regulate nephron progenitor differentiation in vivo, we performed chromatin immunoprecipitation (ChIP) coupled to mouse promoter microarray (ChIP-chip) using chromatin prepared from embryonic mouse kidney tissue. We identified 1663 genes bound by WT1, 86% of which contain a previously identified, conserved, high-affinity WT1 binding site. To investigate functional interactions between WT1 and candidate target genes in nephron progenitors, we used a novel, modified WT1 morpholino loss-of-function model in embryonic mouse kidney explants to knock down WT1 expression in nephron progenitors ex vivo. Low doses of WT1 morpholino resulted in reduced WT1 target gene expression specifically in nephron progenitors, whereas high doses of WT1 morpholino arrested kidney explant development and were associated with increased nephron progenitor cell apoptosis, reminiscent of the phenotype observed in Wt1 -/-embryos. Collectively, our results provide a comprehensive description of endogenous WT1 target genes in nephron progenitor cells in vivo, as well as insights into the transcriptional signaling networks controlled by WT1 that might direct nephron progenitor fate during renal development.

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Harnessing the intracellular triacylglycerols for titer improvement of polyketides in Streptomyces

et al. 2019

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GA4GH: International policies and standards for data sharing across genomic research and healthcare

Rehm¹,

Page²,

Smith³

et al. 2021

Cell Genomics

135

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Gil Alterovitz

A CRISPR-Cas12a-derived biosensing platform for the highly sensitive detection of diverse small molecules

Genomic characterization of Wilms' tumor suppressor 1 targets in nephron progenitor cells during kidney development

Harnessing the intracellular triacylglycerols for titer improvement of polyketides in Streptomyces

GA4GH: International policies and standards for data sharing across genomic research and healthcare

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