Jason L. Xu scite author profile

Structural studies of the 3'-end of the oncogenic long non-coding RNA metastasis-associated lung adenocarcinoma transcript 1 (MALAT1) confirmed a unique triple-helix structure. This structure enables accumulation of the transcript, and high levels of MALAT1 are found in several cancers. Here, we synthesize a small molecule library based on an RNA-binding scaffold, diphenylfuran (DPF), screen it against a variety of nucleic acid constructs, and demonstrate for the first time that the MALAT1 triple helix can be selectively targeted with small molecules. Computational analysis revealed a trend between subunit positioning and composition on DPF shape and intramolecular interactions, which in turn generally correlated with selectivity and binding strengths. This work thus provides design strategies toward chemical probe development for the MALAT1 triple helix and suggests that comprehensive analyses of RNA-focused libraries can generate insights into selective RNA recognition.

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Discovery of Small Molecule Ligands for MALAT1 by Tuning an RNA‐Binding Scaffold

Donlic

Morgan

et al. 2018

Angewandte Chemie

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Structural studies of the 3′‐end of the oncogenic long non‐coding RNA metastasis‐associated lung adenocarcinoma transcript 1 (MALAT1) confirmed a unique triple‐helix structure. This structure enables accumulation of the transcript, and high levels of MALAT1 are found in several cancers. Here, we synthesize a small molecule library based on an RNA‐binding scaffold, diphenylfuran (DPF), screen it against a variety of nucleic acid constructs, and demonstrate for the first time that the MALAT1 triple helix can be selectively targeted with small molecules. Computational analysis revealed a trend between subunit positioning and composition on DPF shape and intramolecular interactions, which in turn generally correlated with selectivity and binding strengths. This work thus provides design strategies toward chemical probe development for the MALAT1 triple helix and suggests that comprehensive analyses of RNA‐focused libraries can generate insights into selective RNA recognition.

show abstract

Corrigendum: Discovery of Small Molecule Ligands for MALAT1 by Tuning an RNA‐Binding Scaffold

Donlic¹,

Morgan²,

Xu³

et al. 2019

Angew Chem Int Ed

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Implicit Annealing in Kernel Spaces: A Strongly Consistent Clustering Approach

Paul

Chakraborty

Das

et al. 2023

IEEE Trans. Pattern Anal. Mach. Intell.

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Jason L. Xu

Discovery of Small Molecule Ligands for MALAT1 by Tuning an RNA‐Binding Scaffold

Discovery of Small Molecule Ligands for MALAT1 by Tuning an RNA‐Binding Scaffold

Corrigendum: Discovery of Small Molecule Ligands for MALAT1 by Tuning an RNA‐Binding Scaffold

Implicit Annealing in Kernel Spaces: A Strongly Consistent Clustering Approach

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