Conserved Sequences from Dengue Virus Genomes Form Stable G-Quadruplexes.

IF 4 2区 医学 Q2 CHEMISTRY, MEDICINAL ACS Infectious Diseases Pub Date : 2025-01-10 Epub Date: 2024-12-12 DOI:10.1021/acsinfecdis.4c00615
Jessica L Siemer, Thao T Le, Ananya Paul, David W Boykin, Margo A Brinton, W David Wilson, Markus W Germann
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引用次数: 0

Abstract

Arthropod-borne members of the genus Orthoflavivirus cause significant human disease. Four serotypes of dengue virus are endemic globally, and approximately 50 percent of the world's population lives in a dengue-affected area. Complications from immunoenhancement occurring after a secondary infection with a different dengue serotype make vaccine development challenging. Antiviral therapies that target features conserved in all four serotypes would, therefore, be beneficial. Computational studies identified multiple potential G-quadruplex sites that are conserved in the RNA genome sequences of members of the genus Orthoflavivirus. Biophysical studies confirmed that the NS5-B quadruplex sequences obtained from viruses of each dengue serotype can form quadruplexes in vitro, and binding data showed that known quadruplex binders stabilized NS5-B quadruplexes for all four dengue serotypes.

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ACS Infectious Diseases
ACS Infectious Diseases CHEMISTRY, MEDICINALINFECTIOUS DISEASES&nb-INFECTIOUS DISEASES
CiteScore
9.70
自引率
3.80%
发文量
213
期刊介绍: ACS Infectious Diseases will be the first journal to highlight chemistry and its role in this multidisciplinary and collaborative research area. The journal will cover a diverse array of topics including, but not limited to: * Discovery and development of new antimicrobial agents — identified through target- or phenotypic-based approaches as well as compounds that induce synergy with antimicrobials. * Characterization and validation of drug target or pathways — use of single target and genome-wide knockdown and knockouts, biochemical studies, structural biology, new technologies to facilitate characterization and prioritization of potential drug targets. * Mechanism of drug resistance — fundamental research that advances our understanding of resistance; strategies to prevent resistance. * Mechanisms of action — use of genetic, metabolomic, and activity- and affinity-based protein profiling to elucidate the mechanism of action of clinical and experimental antimicrobial agents. * Host-pathogen interactions — tools for studying host-pathogen interactions, cellular biochemistry of hosts and pathogens, and molecular interactions of pathogens with host microbiota. * Small molecule vaccine adjuvants for infectious disease. * Viral and bacterial biochemistry and molecular biology.
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