Aradhana scite author profile

Aradhana

3Publications

3Citation Statements Received

0Citation Statements Given

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107

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Stanford University, Birla Institute of Technology, Mesra

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Development of compact transcriptional effectors using high-throughput measurements in diverse contexts

Tycko

Van

Aradhana

et al. 2023

Preprint

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Human nuclear proteins contain >1000 transcriptional effector domains that can activate or repress transcription of target genes. We lack a systematic understanding of which effector domains regulate transcription robustly across genomic, cell-type, and DNA-binding domain (DBD) contexts. Here, we developed dCas9-mediated high-throughput recruitment (HT-recruit), a pooled screening method for quantifying effector function at endogenous targets, and tested effector function for a library containing 5092 nuclear protein Pfam domains across varied contexts. We find many effectors depend on target and DBD contexts, such as HLH domains that can act as either activators or repressors. We then confirm these findings and further map context dependencies of effectors drawn from unannotated protein regions using a larger library containing 114,288 sequences tiling chromatin regulators and transcription factors. To enable efficient perturbations, we select effectors that are potent in diverse contexts, and engineer (1) improved ZNF705 KRAB CRISPRi tools to silence promoters and enhancers, and (2) a compact human activator combination NFZ for better CRISPRa and inducible circuit delivery. Together, this effector-by-context functional map reveals context-dependence across human effectors and guides effector selection for robustly manipulating transcription.

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Design of Unmanned All-Terrain Spy Bot

Kumar

Aradhana

Kumari

et al. 2022

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Digital Implementation of Sigmoid Function in Artificial Neural Network Using VHDL

Bhardwaj

Aradhana

Kumar

et al. 2020

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Aradhana

Development of compact transcriptional effectors using high-throughput measurements in diverse contexts

Design of Unmanned All-Terrain Spy Bot

Digital Implementation of Sigmoid Function in Artificial Neural Network Using VHDL

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