Direct Activation of Nucleobases with Small Molecules for the Conditional Control of Antisense Function

Bardhan, Anirban; Brown, Wes; Albright, Savannah; Tsang, Michael; Davidson, Lance A.; Deiters, Alexander

doi:10.1002/anie.202318773

Angew Chem Int Ed

2024

DOI: 10.1002/anie.202318773

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Direct Activation of Nucleobases with Small Molecules for the Conditional Control of Antisense Function

Anirban Bardhan,

Wes Brown,

Savannah Albright

et al.

Abstract: Conditionally controlled antisense oligonucleotides provide precise interrogation of gene function at different developmental stages in animal models. Few examples of small molecule‐induced activation of antisense function exist, and have been restricted to cyclic morpholinos, which can have significant background activity in the absence of the trigger. Here, we provide a new approach by introducing azido‐caged nucleobases that are site‐specifically introduced into antisense morpholinos. The caging group desig… Show more

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Orthogonal Control of Nucleic Acid Function via Chemical Caging‐Decaging Strategies

Wang,

Wen,

et al. 2024

ChemBioChem

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The ability to precisely control the function of nucleic acids plays an important role in biosensing and biomedicine. In recent years, novel strategies employing biological, physical, and chemical triggers have been developed to modulate the function of nucleic acids spatiotemporally. These approaches commonly involve the incorporation of stimuli‐responsive groups onto nucleic acids to block their functions until triggers‐induced decaging restore activity. These inventive strategies deepen our comprehension of nucleic acid molecules' dynamic behavior and provide new techniques for precise disease diagnosis and treatment. Focusing on the spatiotemporal regulation of nucleic acid molecules through the chemical caging‐decaging strategy, we here present an overview of the innovative triggered control mechanisms and accentuate their implications across the fields of chemical biology, biomedicine, and biosensing.

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Orthogonal Control of Nucleic Acid Function via Chemical Caging‐Decaging Strategies

Wang,

Wen,

et al. 2024

ChemBioChem

View full text Add to dashboard Cite

show abstract

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Direct Activation of Nucleobases with Small Molecules for the Conditional Control of Antisense Function

Cited by 1 publication

References 93 publications

Orthogonal Control of Nucleic Acid Function via Chemical Caging‐Decaging Strategies

Orthogonal Control of Nucleic Acid Function via Chemical Caging‐Decaging Strategies

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