Aditya R. Jangid scite author profile

Severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2) causes a range of symptoms in infected individuals, from mild respiratory illness to acute respiratory distress syndrome. A systematic understanding of host factors influencing viral infection is critical to elucidate SARS-CoV-2–host interactions and the progression of Coronavirus disease 2019 (COVID-19). Here, we conducted genome-wide CRISPR knockout and activation screens in human lung epithelial cells with endogenous expression of the SARS-CoV-2 entry factors ACE2 and TMPRSS2. We uncovered proviral and antiviral factors across highly interconnected host pathways, including clathrin transport, inflammatory signaling, cell-cycle regulation, and transcriptional and epigenetic regulation. We further identified mucins, a family of high molecular weight glycoproteins, as a prominent viral restriction network that inhibits SARS-CoV-2 infection in vitro and in murine models. These mucins also inhibit infection of diverse respiratory viruses. This functional landscape of SARS-CoV-2 host factors provides a physiologically relevant starting point for new host-directed therapeutics and highlights airway mucins as a host defense mechanism.

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Rapid detection of SARS-CoV-2 RNA in saliva via Cas13

Chandrasekaran

Agrawal²,

Fanton³

et al. 2022

Nat. Biomed. Eng

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Wax-Printed Fluidic Time Delays for Automating Multi-Step Assays in Paper-Based Microfluidic Devices (MicroPADs)

et al. 2019

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Microfluidic paper-based analytical devices (microPADs) have emerged as a promising platform for point-of-care diagnostic devices. While the inherent wicking properties of microPADs allow for fluid flow without supporting equipment, this also presents a major challenge in achieving robust fluid control, which becomes especially important when performing complex multi-step assays. Herein, we describe an ideal method of fluid control mediated by wax-printed fluidic time delays. This method relies on a simple fabrication technique, does not utilize chemicals/reagents that could affect downstream assays, is readily scalable, and has a wide temporal range of tunable fluid control. The delays are wax printed on both the top and bottom of pre-fabricated microPAD channels, without subsequent heating, to create hemi-/fully-enclosed channels. With these wax printed delays, we were able to tune the time it took aqueous solutions to wick across a 25 mm-long channel between 3.6 min and 13.4 min. We then employed these fluid delays in the sequential delivery of four dyes to a test zone. Additionally, we demonstrated the automation of two simple enzymatic assays with this fluid control modality. This method of fluid control may allow future researchers to automate more complex assays, thereby further advancing microPADs toward real-world applications.

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Photo‐Induced Functionalization of para‐Benzoquinones: Access to Dihydroquinoxalines with a Tetrasubstituted Carbon Stereocenter

et al. 2023

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Visible light induced activation of para‐benzoquinone, and its sequential coupling with alkynes and ortho‐phenylenediamines/ortho‐aminophenols is reported. The protocol provides a route for synthesizing value‐added quinoxaline derivatives with tetrasubstituted carbon stereocenter at room temperature in 36–75% yields. Mechanistic investigation suggests that the reaction proceeds via in‐situ generation of para‐quinone methide through direct excitation of para‐benzoquinone in blue light.

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Aditya R. Jangid

Genome-wide bidirectional CRISPR screens identify mucins as host factors modulating SARS-CoV-2 infection

Rapid detection of SARS-CoV-2 RNA in saliva via Cas13

Wax-Printed Fluidic Time Delays for Automating Multi-Step Assays in Paper-Based Microfluidic Devices (MicroPADs)

Photo‐Induced Functionalization of para‐Benzoquinones: Access to Dihydroquinoxalines with a Tetrasubstituted Carbon Stereocenter

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