Affinity Peptide-Tethered Suspension Hydrogel Sensor for Selective and Sensitive Detection of Influenza Virus

Abstract: Influenza viruses are known to cause pandemic flu outbreaks through both inter-human and animal-to-human transmissions. Therefore, the rapid and accurate detection of such pathogenic viruses is crucial for effective pandemic control. Here, we introduce a novel sensor based on affinity peptide-immobilized hydrogel microspheres for the selective detection of influenza A virus (IAV) H3N2. To enhance the binding affinity performance, we identified novel affinity peptides using phage display and further optimized t… Show more

“…[16] Kim at al., developed a novel sensor that utilizes affinity peptide-immobilized hydrogel microspheres for the selective detection of influenza A virus (IAV) H3N2, achieving quantitative detection. [17] Shi et al employed biopanning approaches to select specific peptides against immobilized histamine hapten, aiming to develop a fluorescence detection platform for histamine sensing. In their approach, carbon quantum dots (CQDs) and synthetic peptides were utilized.…”

Peptide‐Based Recognition Agents of Histamine: A Biopanning Approach with Enhanced Specificity

“…[16] Kim at al., developed a novel sensor that utilizes affinity peptide-immobilized hydrogel microspheres for the selective detection of influenza A virus (IAV) H3N2, achieving quantitative detection. [17] Shi et al employed biopanning approaches to select specific peptides against immobilized histamine hapten, aiming to develop a fluorescence detection platform for histamine sensing. In their approach, carbon quantum dots (CQDs) and synthetic peptides were utilized.…”

Peptide‐Based Recognition Agents of Histamine: A Biopanning Approach with Enhanced Specificity

Detection strategies of infectious diseases via peptide-based electrochemical biosensors

Rapid and sensitive detection of domoic acid in shellfish using a magnetic bead-based competitive ELISA with a high-affinity peptide as a molecular binder