Archive for October, 2023

RSC Chemical Biology Webinar: Outstanding Paper Award Winner 2022

26 Oct 2023

Join us to celebrate the Outstanding Paper Award winners of 2022!

The team at RSC Chemical Biology are delighted to invite you to our upcoming webinar to celebrate the winner of our Outstanding Paper Award from 2022. The winner is Professor Craig Crews, of Yale University, for their paper “OligoTRAFTACs: A generalizable method for transcription factor degradation”.

 

 

 

The webinar, scheduled to last for one hour, will feature a presentation from the group of Professor Craig Crews discussing their work, and this will be followed by a presentation from Professor Michelle Arkin, an Editorial Board Member for RSC Chemical Biology, highlighting some ongoing work in her group at the University of California, San Francisco.

This event is being held online through Zoom and is completely free to attend. It will be held on Tuesday 21st November at 17:00 GMT. You can find more information on our Event Page and can register for the event here.

We look forward to seeing you at the webinar!

 

 

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The multivalent G-quadruplex (G4)-ligands MultiTASQs allow for versatile click chemistry-based investigations

23 Oct 2023

About this article

G-quadruplexes (or G4s) are four-stranded DNA and RNA structures that fold from guanine (G)-rich sequences. G4 are suspected to play key biological roles in human cells and diseases. Small molecules that selectively target G4s (or G4-ligands) can thus be used as modulators to gain insights into the cell circuitry where G4s are involved. While hundreds of G4-ligands have been designed, synthesized and used, most if not all of them are flat aromatic molecules prone to interact with the duplex-DNA (the major form of DNA within the nucleus), which mechanically decreases their specificity for G4s.

We have developed a brand new molecular design, following a biomimetic approach that hinges on the observation that G4s are stable secondary structures owing to the ability of Gs to self-associate to form G-quartets, and then of G-quartets to self-stack to form the columnar core of G4s. Therefore, using a synthetic G-quartet as a G4-ligand represents a unique example of biomimetic recognition of G4s, relying on a like-likes-like approach, which is the surest pledge for a very high G4-selectivity.

In this article, we report on the design, synthesis and use of synthetic G-quartet-based ligands, also referred to as TASQs (for template-assembled synthetic G-quartets). These TASQs are the latest prototypes of TASQs, being multivalent TASQs (that is why we refer to them as MultiTASQs) able to be functionalized in situ by click chemistry (both CuAAC and SPAAC) for optical imaging and affinity precipitation purposes. These bioorthogonal investigations thus provides unique information about G4 biology.

Click on the infographic to read the full paper!

G-quadruplexes (or G4s) are four-stranded DNA and RNA structures that fold from guanine (G)-rich sequences. G4 are suspected to play key biological roles in human cells and diseases. Small molecules that selectively target G4s (or G4-ligands) can thus be used as modulators to gain insights into the cell circuitry where G4s are involved. While hundreds of G4-ligands have been designed, synthesized and used, most if not all of them are flat aromatic molecules prone to interact with the duplex-DNA (the major form of DNA within the nucleus), which mechanically decreases their specificity for G4s.

 

About RSC Chemical Biology

Led by Hiroaki Suga (University of Tokyo), RSC Chemical Biology is dedicated to publishing and disseminating the most exceptionally significant, breakthrough findings of interest to the chemical biology community. All submissions are handled by our experienced and internationally recognised Associate Editors. For more information on the journal, please visit the journal homepage.

As a gold open access journal, there are no barriers to accessing content and your research article will reach an international audience. Please note that the article processing charges are waived until mid-2022, so the journal is currently free to publish in.

RSC Chemical Biology is now indexed in the Directory of Open Access Journals (DOAJ), PubMed Central, Scopus and Web of Science: Emerging Sources Citation Index.  Find out more about the journal and submit your work at rsc.li/rsc-chembio

 

RSC Chemical Biology

Royal Society of Chemistry

www.rsc.org

 

 

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