Blanca Escudero-Abarca scite author profile

Human noroviruses (HuNoV) are the leading cause of acute viral gastroenteritis and an important cause of foodborne disease. Despite their public health significance, routine detection of HuNoV in community settings, or food and environmental samples, is limited, and there is a need to develop alternative HuNoV diagnostic reagents to complement existing ones. The purpose of this study was to select and characterize single-stranded (ss)DNA aptamers with binding affinity to HuNoV. The utility of these aptamers was demonstrated in their use for capture and detection of HuNoV in outbreak-derived fecal samples and a representative food matrix. SELEX (Systematic Evolution of Ligands by EXponential enrichment) was used to isolate ssDNA aptamer sequences with broad reactivity to the prototype GII.2 HuNoV strain, Snow Mountain Virus (SMV). Four aptamer candidates (designated 19, 21, 25 and 26) were identified and screened for binding affinity to 14 different virus-like particles (VLPs) corresponding to various GI and GII HuNoV strains using an Enzyme-Linked Aptamer Sorbant Assay (ELASA). Collectively, aptamers 21 and 25 showed affinity to 13 of the 14 VLPs tested, with strongest binding to GII.2 (SMV) and GII.4 VLPs. Aptamer 25 was chosen for further study. Its binding affinity to SMV-VLPs was equivalent to that of a commercial antibody within a range of 1 to 5 µg/ml. Aptamer 25 also showed binding to representative HuNoV strains present in stool specimens obtained from naturally infected individuals. Lastly, an aptamer magnetic capture (AMC) method using aptamer 25 coupled with RT-qPCR was developed for recovery and detection of HuNoV in artificially contaminated lettuce. The capture efficiency of the AMC was 2.5–36% with an assay detection limit of 10 RNA copies per lettuce sample. These ssDNA aptamer candidates show promise as broadly reactive reagents for use in HuNoV capture and detection assays in various sample types.

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Generation and characterization of nucleic acid aptamers targeting the capsid P domain of a human norovirus GII.4 strain

Moore

Escudero-Abarca

Suh

et al. 2015

Journal of Biotechnology

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Human noroviruses (NoV) are the leading cause of acute viral gastroenteritis worldwide. Significant antigenic diversity of NoV strains has limited the availability of broadly reactive ligands for design of detection assays. The purpose of this work was to produce and characterize single stranded (ss)DNA aptamers with binding specificity to human NoV using an easily produced NoV target-the P domain protein. Aptamer selection was done using SELEX (Systematic Evolution of Ligands by EXponential enrichment) directed against an Escherichia coli-expressed and purified epidemic NoV GII.4 strain P domain. Two of six unique aptamers (designated M1 and M6-2) were chosen for characterization. Inclusivity testing using an enzyme-linked aptamer sorbent assay (ELASA) against a panel of 14 virus-like particles (VLPs) showed these aptamers had broad reactivity and exhibited strong binding to GI.7, GII.2, two GII.4 strains, and GII.7 VLPs. Aptamer M6-2 exhibited at least low to moderate binding to all VLPs tested. Aptamers significantly (p<0.05) bound virus in partially purified GII.4 New Orleans outbreak stool specimens as demonstrated by ELASA and aptamer magnetic capture (AMC) followed by RT-qPCR. This is the first demonstration of human NoV P domain protein as a functional target for the selection of nucleic acid aptamers that specifically bind and broadly recognize diverse human NoV strains.

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Outbreak of Norovirus Infection among River Rafters Associated with Packaged Delicatessen Meat, Grand Canyon, 2005

et al. 2009

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Antifungal Activity of Bacillus thuringiensis Chitinase and Its Potential for the Biocontrol of Phytopathogenic Fungi in Soybean Seeds

Reyes-Ramírez¹,

Escudero-Abarca²,

Aguilar-Uscanga³

et al. 2004

Journal of Food Science

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Bacillus thuringiensis var israelensis was used to produce chitinase on shrimp wastes by fermentation at 30 °C and 250 rpm for 120 h. The enzyme was concentrated by ultrafiltration and was adjusted to pH 5.8. Antifungal chitinase activity on phytopathogenic fungi was investigated in growing cultures and on soybean seeds infested with Sclerotium rolfsii. Fungal inhibition was found to be 100% for S. rolfsii; 55% to 82% for A. terreus, A. flavus, Nigrospora sp, Rhizopus sp, A. niger, Fusarium sp, A. candidus,Absidia sp, and Helminthosporium sp; 45% for Curvularia sp; and 10% for A. fumigatus (P < 0.05). When soybean seeds were infected with S. rolfsii, germination was reduced from 93% to 25%; the addition of chitinase (0.8 U/mg protein) increased germination to 90%. B. thuringiensis chitinase may contribute to the biocontrol of S. rolfsii and other phytopathogenic fungi in soybean seeds in Integrated Pest Management programs.

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Molecular methods used to estimate thermal inactivation of a prototype human norovirus: More heat resistant than previously believed?

et al. 2014

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