Office of Undergraduate Research

Permanent URI for this communityhttp://hdl.handle.net/1903/20157

Emphasizing equitable and inclusive access to research opportunities, the University of Maryland's Office of Undergraduate Research (OUR) empowers undergraduates and faculty to engage and succeed in inquiry, creative activity, and scholarship. This collection includes materials shared by undergraduate researchers during OUR events. It also encompasses materials from Undergraduate Research Day 2020, Undergraduate Research Day 2021, and Undergraduate Research Day 2022, which were organized by the Maryland Center for Undergraduate Research.

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Now showing 1 - 4 of 4
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    Ligation Loop-Mediated Isothermal Amplification for the Detection of Prostate Cancer
    (2024-12-06) Hanieh, Yanar; Amanuel, Betiel; Negussie, Alex; Spirito, Catherine
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    Ligation Loop-Mediated Isothermal Amplification for the Detection of Prostate Cancer
    (2024-12-06) Hanieh, Yanar; Amanuel, Betiel; Negussie, Alex; Spirito, Catherine
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    Ligation-LAMP to Detect miR-221 Cancer Biomarker
    (2024) Kaiser, Jillian; Lee, HaeSung Lola; Patel, Khushi; Sugg, Bethany; Spirito, Catherine
    Breast cancer is the second most common cancer in women and can be fatal. Current breast cancer diagnostic tools such as mammograms, MRIs, and biopsies are invasive, costly, time-consuming, and inefficient. Isothermal amplification assays, such as loop-mediated isothermal amplification (LAMP), can be designed to detect miRNA cancer biomarkers in blood samples. The focus of our project is to detect miRNA-221, a breast cancer biomarker, using a ligation-LAMP assay with high specificity and sensitivity. During ligation LAMP, miR-221 is reverse transcribed to cDNA. The cDNA acts as a splint to ligate two hairpins that form the dumbbell needed for LAMP amplification by Bst Polymerase. LAMP amplification can be detected through colorimetric methods, using phenol red and HNB. Intercalating fluorescent dye can also be used, or a CRISPR system can be used and yield a fluorescent output as well. Our primary findings include successful tests using colorimetric LAMP. We have seen nonspecific amplification causing false positives, but by adding betaine, a reagent that hinders nucleic acid amplification rate, to our reactions, the positive control amplifies sooner than the negative. Using the colorimetric and fluorescent methods described, ligation LAMP can be used to efficiently detect breast cancer biomarker miR-221.
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    DNA Aptamers Against Airway Mucin Proteins for Therapeutics and Diagnostics
    (2024) Dwomoh, Deborah; Welte, Linara; Savage, Colin; McDonald, Cyan; Shpilman, Zackary; Srinath, Priyanka; Spirito, Catherine
    Mucus is a viscous bodily fluid composed of mucin proteins, inorganic salts, and water. MUC5AC and MUC5B are the two mucin proteins that makeup airway mucus. Elevated levels of MUC5AC can indicate certain diseases, like asthma and Chronic Obstructive Pulmonary Disease (COPD). Current treatments for mucus-associated respiratory diseases include using enzymes and chemical agents to clear mucus buildup. These existing treatments are limited in their ability to selectively target specific mucin proteins within mucus. Our research aims to select DNA aptamers that bind to MUC5AC or MUC5B, within mucus samples. We are optimizing a One-Pot SELEX or in vitro selection methodology previously used by other researchers to select aptamers against MUC16. Selected DNA aptamers with high binding affinity and specificity can detect airway mucin proteins and deliver engineered proteases to cleave and destroy them.