Selection and Characterization of Single-Stranded DNA Aptamers of Diagnostic Potential against the Whole Zika Virus

Abstract: Zika virus became a major public health problem in early 2015, when cases of Guillain–Barré syndrome and microcephaly were associated with viral infection. Currently, ZIKV is endemic in all tropical areas of the world, and the chance for future Zika epidemics remains very real and accurate diagnosis is crucial. The aim of this work was to select specific ssDNA aptamers that bind to the entire Zika virus and can be used to compose specific diagnostics, without cross-reactivity with other flaviviruses. Zika viru… Show more

“…They can be used in combination with high-throughput sequencing technologies, such as 16S rRNA sequencing to identify and quantify specific microbial populations in the gut microbiota and to identify and quantify specific microbial metabolites, which are important for gut health [118]. This approach allows researchers to better understand the interactions between the microbiome and the host and how they influence overall health and disease, providing a more accurate diagnosis and better understanding of the disease [119][120][121][122][123].…”

“…For example, Wandtke et al (2015) designed aptamers to selectively bind to viral proteins or other molecules involved in viral replication and infection with high specificity and sensitivity, preventing their replication or disrupting their functions [124]. Here, the authors discuss several examples of aptamer-based assays developed for the detection of hepatitis C and Human Immunodeficiency Virus (HIV) and also how this novel method could be used as a therapeutic agent for viral infections, such as influenza, with A-20 and V46 aptamers [119,120], dengue fever, with S15G3 aptamer [121], and Zika virus [122]. Additionally, aptamers can be used to deliver therapeutic molecules, such as antibiotics, antivirals, antifungals, or probiotics, specifically to the site of infection or dysbiosis in the human microbiota, reducing side effects and increasing efficacy [123].…”

Moving towards Personalized Medicine—The Broad Use of Aptamers for Targeted Theranostic

“…They can be used in combination with high-throughput sequencing technologies, such as 16S rRNA sequencing to identify and quantify specific microbial populations in the gut microbiota and to identify and quantify specific microbial metabolites, which are important for gut health [118]. This approach allows researchers to better understand the interactions between the microbiome and the host and how they influence overall health and disease, providing a more accurate diagnosis and better understanding of the disease [119][120][121][122][123].…”

“…For example, Wandtke et al (2015) designed aptamers to selectively bind to viral proteins or other molecules involved in viral replication and infection with high specificity and sensitivity, preventing their replication or disrupting their functions [124]. Here, the authors discuss several examples of aptamer-based assays developed for the detection of hepatitis C and Human Immunodeficiency Virus (HIV) and also how this novel method could be used as a therapeutic agent for viral infections, such as influenza, with A-20 and V46 aptamers [119,120], dengue fever, with S15G3 aptamer [121], and Zika virus [122]. Additionally, aptamers can be used to deliver therapeutic molecules, such as antibiotics, antivirals, antifungals, or probiotics, specifically to the site of infection or dysbiosis in the human microbiota, reducing side effects and increasing efficacy [123].…”

Moving towards Personalized Medicine—The Broad Use of Aptamers for Targeted Theranostic

Current developments of SELEX technologies and prospects in the aptamer selection with clinical applications

Rational design and production of a chimeric antigen targeting Zika virus that induces neutralizing antibodies in mice