{"id":172,"date":"2017-05-25T10:14:42","date_gmt":"2017-05-25T14:14:42","guid":{"rendered":"https:\/\/carleton.ca\/ladder\/?page_id=172"},"modified":"2024-07-02T14:33:02","modified_gmt":"2024-07-02T18:33:02","slug":"publications","status":"publish","type":"page","link":"https:\/\/carleton.ca\/ladder\/publications\/","title":{"rendered":"Publications"},"content":{"rendered":"

Check out the Maria’s Google Scholar page<\/a>\u00a0for the latest information about the DeRosa lab publications.<\/p>\n

Patent Applications<\/strong><\/span><\/p>\n

APTAMERS AS A THERAPEUTIC TOOL TO PREVENT PROTEIN AGGREGATION IN NEURODEGENERATIVE DISEASE\u00a0DEROSA, Maria Cynthia; HOLAHAN, Matthew Richard; MCCONNELL, Erin Marie; VENTURA, Katelyn Victoria; CALLAHAN, Joshua Parker; HUNT, Vernon Harold Daniel US Patent Application\u00a062\/575,813\u00a0https:\/\/patents.google.com\/patent\/WO2019079887A1\/en<\/a><\/strong><\/p>\n

ROOT EXUDATE-ACTIVATED SYSTEM FOR AGROCHEMICAL DELIVERY SCHNEIDER, Juan; MONREAL, Carlos; DEROSA, Maria; CHOI, Phillip; MASTRONARDI, Emily; TSAE, Phepafatso; MATUS, Francisco. PCT\/CA2019\/051306\u00a0https:\/\/patentscope.wipo.int\/search\/en\/detail.jsf?docId=WO2020051717<\/a><\/p>\n

Publication list 2018-2024 (Bold indicates LADDER HQP)<\/span><\/strong><\/p>\n

113) E.M. McConnell,\u00a0<\/strong>D. Chan, K. Ventura,\u00a0J.P. Callahan<\/strong>, K. Harris,\u00a0V.H. Hunt<\/strong>,\u00a0S. Boisjoli<\/strong>,\u00a0D. Knight<\/strong>,\u00a0E.T. Monk<\/strong>, M.R. Holahan, M.C. DeRosa<\/strong>, “Selection of DNA aptamers that prevent the fibrillization of \u03b1-synuclein protein in cellular and mouse models”\u00a0Molec. Ther. Nucleic Acids.<\/em>\u00a02024<\/strong>. DOI: https:\/\/doi.org\/10.1016\/j.omtn.2024.102251<\/a><\/p>\n

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112) B. Chovelon, V. Ranganathan<\/strong>,\u00a0S. Srinivasan<\/strong>,\u00a0E.M. McConnell<\/strong>, P. Faure, E. Fiore, C. Ravelet, E. Peyrin,\u00a0M.C. DeRosa<\/strong>, “Noncompetitive determination of small analytes by Sandwich-type lateral flow assay based on aptamer kissing complex”\u00a0Anal. Chem.\u00a0<\/em>2024<\/strong>.\u00a096<\/em>, 18, 6875-6880. DOI: https:\/\/doi.org\/10.1021\/acs.analchem.3c05472<\/a><\/p>\n

111) S.A. Tittlemier, B. Cramer,\u00a0M.C. DeRosa<\/strong>, Z. Dzuman, R. Malone, C. Maragos, M. Suman, M.W. Sumarah, “Developments in analytical techniques for mycotoxin determination: an update for 2022-2023”\u00a0World Mycotoxin Journal<\/em>.\u00a02024<\/strong>. 17(1), 3-26, <\/em>https:\/\/doi.org\/10.1163\/18750796-bja10002<\/a><\/p>\n

110) B. Billet, B. Chovelon,\u00a0E.M. McConnell<\/strong>,\u00a0D. Andre, L. Puillet-Anselme, E. Fiore, P. Faure, C. Ravelet,\u00a0M.C. DeRosa<\/strong>, E. Peyrin, “Iodinated organic molecule as tag for inductively-coupled plasma-mass spectrometry, aptamer assays”\u00a0Talanta.\u00a0<\/em>2024<\/strong>. DOI: https:\/\/doi.org\/10.1016\/j.talanta.2023.125107<\/a><\/p>\n

109) F. Ebanks<\/strong>, H. Nasrallah<\/strong>, T.M. Garant, E.M. McConnell<\/strong>, M.C. DeRosa<\/strong>, “Colorimetric detection of aflatoxins B1 and M1 using aptamers and gold and silver nanoparticles” Advanced Agrochem<\/em>.\u00a02023<\/strong>. 2<\/em>, 221. https:\/\/doi.org\/10.1016\/j.aac.2023.07.003\u00a0<\/a><\/p>\n

108) R.S. Massey, E.M. McConnell<\/strong>, D. Chan, M.R. Holahan, M.C. DeRosa<\/strong>, R. Prakash, “Non-invasive Monitoring of \u03b1-Synuclein in Saliva for Parkinson\u2019s Disease Using Organic Electrolyte-Gated FET Aptasensor”\u00a0ACS Sensors<\/em>.\u00a02023<\/strong>.\u00a08<\/em>, 3116. https:\/\/doi.org\/10.1021\/acssensors.3c00757<\/a><\/p>\n

107) M.C. DeRosa<\/strong>, A. Lin, P. Mallikaratchy, E.M. McConnell<\/strong>, M. McKeague, Rutika Patel, Sarah Shigdar, “In vitro\u00a0<\/em>selection of aptamers and their applications”\u00a0Nat. Rev. Methods Primers. <\/em>2023<\/strong>,\u00a03<\/em>, 54. https:\/\/doi.org\/10.1038\/s43586-023-00238-7\u00a0<\/a><\/p>\n

106) S. Srinivasan<\/strong>, V. Ranganathan<\/strong>, E.M. McConnell,<\/strong> B.M.M. Murari, M.C. DeRosa<\/strong>, “Aptamer-based colorimetric and lateral flow assay approaches for the detection of toxic metal ions, thallium (i) and lead (ii)”\u00a0RSC Adv.<\/em>\u00a02023<\/strong>.\u00a013<\/em>, 20040. https:\/\/doi.org\/10.1039\/D3RA01658G<\/a><\/p>\n

105) M. Pundir, S. Papagerakis, M. C. De Rosa, N. Chronis, \u00a0K. Kurabayashi, S. Abdulmawjood<\/strong>, M. E. P. Prince, L. Lobanova, X. Chen, \u201cEmerging biotechnologies for evaluating disruption of stress, sleep, and circadian rhythm mechanism using aptamer-based detection of salivary biomarkers\u201d Biotech. Advances. <\/em>2022, <\/strong>59, <\/em>107961. <\/em>https:\/\/doi.org\/10.1016\/j.biotechadv.2022.107961<\/a><\/p>\n

104) V. Ranganathan, S. Boisjoli, <\/strong>M. C. DeRosa* \u201cAdsorption\u2013Desorption Nano-Aptasensors: Fluorescent screening assays for Ochratoxin A\u201d RSC Advances<\/em>. 2022 <\/strong>12, <\/em>13727-13739. https:\/\/doi.org\/10.1039\/D2RA00026A<\/a><\/p>\n

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103) S.A. Tittlemier, B. Cramer, C. Dall\u2019Asta, M.C. DeRosa, V.M.T. Lattanzio, R. Malone, C. Maragos, M. Stranska, M.W. Sumarah \u201cDevelopments in mycotoxin analysis: an update for 2020-21\u201d World Mycotoxin Journal <\/em>2022, <\/strong>15, <\/em>3-25.<\/em> https:\/\/doi.org\/10.3920\/WMJ2021.2752<\/a><\/p>\n

102) A. Koudrina<\/strong>, C. Chartrand<\/strong>, G. O. Cron, J. O\u2019Brien, E. C. Tsai, M. C. DeRosa* \u201cFibrinogen aptamer functionalized gold-coated iron-oxide nanoparticles for targeted imaging of thrombi\u201d Chem. Comm. <\/em>2022, <\/strong>58, <\/em>2870-2873. \u00a0\u00a0\u00a0\u00a0\u00a0\u00a0\u00a0\u00a0\u00a0\u00a0\u00a0\u00a0\u00a0\u00a0\u00a0 <\/em>https:\/\/doi.org\/10.1039\/D1CC03817F<\/a><\/p>\n

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101) M. Loyez*<\/strong>, M. C. DeRosa, C. Caucheteur, R. Wattiez \u201cOverview and emerging trends in optical fiber aptasensing\u201d Biosens. Bioelectron.<\/em> 2022, <\/strong>196<\/em>, 113694. https:\/\/doi.org\/10.1016\/j.bios.2021.113694<\/a><\/p>\n

100) Z. Abdulsada, R. Kibbee, D. Schwertfeger, J. Princz, M. DeRosa, B. \u00d6rmeci* \u201cFate and Removal of Silver Nanoparticles during Sludge Conditioning and their Impact on Soil Health after Simulated Land Application\u201d Water Res.<\/em> 2021<\/strong>, 206<\/em>, 117757. https:\/\/doi.org\/10.1016\/j.watres.2021.117757<\/a><\/p>\n

99) K. G. Earnest, E. M. McConnell, E. M. Hassan,<\/strong> M. Wunderlich, B. Hosseinpour<\/strong>, B. S. Bono, M. J. Chee, J. C. Mulloy, W. G. Willmore, M. C. DeRosa*, E. J. Merino* \u201cDevelopment and characterization of a DNA aptamer for MLL-AF9 expressing acute myeloid leukemia cells using whole cell-SELEX\u201d Sci. Rep.<\/em> 2021<\/strong>, 11<\/em>, 19174. https:\/\/doi.org\/10.1038\/s41598-021-98676-4<\/a><\/p>\n

98) Z. Abdulsada, R. Kibbee, J. Princz, M. C. DeRosa, B. \u00d6rmeci* \u201cTransformation of Silver Nanoparticles (AgNPs) during Lime Treatment of Wastewater Sludge and Their Impact on Soil Bacteria\u201d Nanomaterials<\/em> 2021<\/strong>, 11<\/em>, 2330. https:\/\/doi.org\/10.3390\/nano11092330<\/a><\/p>\n

97) M. Q. Ferguson<\/strong>, M.C. DeRosa* \u201cOptimized experimental pre-treatment strategy for temporary inhibition of islet amyloid polypeptide aggregation\u201d. Biochem Biophys Rep.<\/em> 2021,<\/strong> 26<\/em>, 100964. https:\/\/doi.org\/10.1016\/j.bbrep.2021.100964<\/a><\/p>\n

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96) S. Natarajan*, M. C. DeRosa, M.I. Shah, J. Joseph. \u201cDevelopment and evaluation of a quantitative fluorescent lateral flow immunoassay for cystatin C, a renal dysfunction biomarker.\u201d Sensors<\/em>. 2021<\/strong>, 21,<\/em> 3178. https:\/\/doi.org\/10.3390\/s21093178<\/a><\/p>\n

95) J.R. Velicogna, D. Schwertfeger, A. Jesmer, C. Beer, J. Kuo, M. C. DeRosa, R. Scroggins, M. Smith, J. Princz*. \u201cSoil invertebrate toxicity and bioaccumulation of nano copper oxide and copper sulphate in soils, with and without biosolids amendment.\u201d Ecotox Environ Safety.<\/em> 2021,<\/strong> 217,<\/em> 112222. https:\/\/doi.org\/10.1016\/j.ecoenv.2021.112222<\/a><\/p>\n

94) D. Marquez<\/strong>, J. Chawich, W. Hassen, K. Moumanis, J. Dubowski*, M.C. DeRosa*. \u201cPolymer Brushes-GaAs Interface and its use as an Antibody-compatible Platform for Biosensing.\u201d ACS Omega<\/em> 2021<\/strong>, 6,<\/em> 7286-7295. https:\/\/doi.org\/10.1021\/acsomega.0c04954<\/a><\/p>\n

93) M. Loyez<\/strong>, M. Lobry, E. M. Hassan<\/strong>, M. C. DeRosa, C. Caucheteur, R. Wattiez*. \u201cHER2 breast cancer biomarker detection using a sandwich optical fiber assay\u201d Talanta <\/em>2021<\/strong>, 121452. https:\/\/doi.org\/10.1016\/j.talanta.2020.121452<\/a><\/p>\n

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92) E. M. Hassan,<\/strong> B. R. Dixon, S. A. Sattar, A. Stalker, B. \u00d6rmeci, M. C. DeRosa*. \u201cHighly sensitive magnetic microparticle-based aptasensor for Cryptosporidium parvum oocyst detection in river water and wastewater: Effect of truncation on aptamer affinity\u201d Talanta,<\/em> 2021<\/strong>, 222<\/em>, 121618. https:\/\/doi.org\/10.1016\/j.talanta.2020.121618<\/a><\/p>\n

91) Z. K. Abdulsada<\/strong>, R. Kibbee, B. \u00d6rmeci, M. DeRosa, J. Princz*. \u201cImpact of anaerobically digested silver and copper oxide particles in biosolids on soil characteristics and bacterial community\u201d Chemosphere<\/em> 2021<\/strong> 263,<\/em> 128173. https:\/\/doi.org\/10.1016\/j.chemosphere.2020.128173<\/a><\/p>\n

90) S.A. Tittlemier*, J. Brunkhorst, B. Cramer, M.C. DeRosa, V.M.T. Lattanzio, R. Malone, C. Maragos, M. Stranska, M.W. Sumarah. \u201cDevelopments in mycotoxin analysis: an update for 2019-20\u201d World Mycotoxin Journal <\/em>2021<\/strong> 14<\/em>, 3-26. https:\/\/doi.org\/10.3920\/WMJ2020.2664<\/a> (Invited)<\/p>\n

89) D. Shimwe Niyonambaza, A. Koudrina<\/strong>, M. C. DeRosa, M. Boukadoum, A. Miled, E. Boisselier*\u00a0 \u201cAptamer-Modified Ultrastable Gold Nanoparticles for Dopamine Detection\u201d IEEE Sensors<\/em> 2021,<\/strong> 21,<\/em> 2517-2525. doi: 10.1109\/JSEN.2020.3026159<\/a>.<\/p>\n

88) A. Koudrina<\/strong>, E. M. McConnell<\/strong>, J. A. Zurakowski<\/strong>, G. O. Cron, S. Chen, E. Tsai, M. C. DeRosa* \u201cDeveloping aptamer-conjugated gadolinium contrast media to target fibrin clots in magnetic resonance imaging\u201d\u00a0 ACS Applied Mat Inter. <\/em>2021<\/strong>, 13<\/em>, 8, 9412-9424.<\/em> https:\/\/doi.org\/10.1021\/acsami.0c16666<\/a><\/p>\n

87) E. M. Hassan<\/strong>, B. \u00d6rmeci, M.C. DeRosa*, B. R. Dixon, S. A. Sattar*, A. Iqbal. \u201cA review of Cryptosporidium spp. and their detection in water.\u201d Water Sci. Tech.<\/em> 2021<\/strong>, 83<\/em>, 1-25. https:\/\/doi.org\/10.2166\/wst.2020.515<\/a><\/p>\n

86) E. Mastronardi, K. Cyr,<\/strong> C. Monreal, M.C. DeRosa*. \u201cSelection of DNA aptamers for root exudate L- serine using multiple selection strategies for use in agricultural biosensing\u201d. J. Ag. Food Chem<\/em>. 2021,<\/strong> 69,<\/em> 4294-4306. https:\/\/doi.org\/10.1021\/acs.jafc.0c06796<\/a> Cover article<\/em><\/strong><\/p>\n

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85) C. Kolm,<\/strong> I. Cervenka, U. J. Aschl, N. Baumann, S. Jakwerth, R. Krska, R. L.Mach, R. Sommer, M.C.DeRosa, A.K.T. Kirschner, A.H. Farnleitner, G.H. Reisch*. \u201cDNA aptamers against bacterial cells can be efficiently selected by a SELEX process using state-of-the-art qPCR and ultra-deep sequencing\u201d Sci. Rep<\/em>. 2020, <\/strong>10<\/em>, 20917. https:\/\/doi.org\/10.1038\/s41598-020-77221-9<\/a><\/p>\n

84) M. Lobry, M. Loyez<\/strong>*, K. Chah, E. M. Hassan<\/strong>, E. Goormaghtigh, M. C. DeRosa, R. Wattiez, C Caucheteur*. \u201cHER2 biosensing through SPR-envelope tracking in plasmonic optical fiber gratings\u201d. Biomed. Opt. Express.<\/em> 2020, <\/strong>11<\/em>, 4862-4871. https:\/\/doi.org\/10.1364\/BOE.401200<\/a><\/p>\n

83) M. Lobry, M. Loyez, E. M. Hassan<\/strong>, K. Chah, M. C. DeRosa, E. Goormaghtigh, R. Wattiez, C. Caucheteur*\u00a0 \u201cMultimodal plasmonic optical fiber grating aptasensor\u201d Optics Express<\/em>, 2020<\/strong>, 28<\/em>, 7539-7551. https:\/\/doi.org\/10.1364\/OE.385747<\/a>.<\/p>\n

82) M. Loyez, E. M. Hassan<\/strong>, M. Lobry, F. Liu, C. Caucheteur, R. Wattiez, M. C. DeRosa, W. G. Willmore, J.\u00a0 Albert* \u201cRapid detection of circulating breast cancer cells using a multi-resonant optical fiber aptasensor with plasmonic amplification\u201d ACS Sens.<\/em> 2020, <\/strong>5<\/em>, 2, 454-463.<\/em> https:\/\/doi.org\/10.1021\/acssensors.9b02155<\/a>.<\/p>\n

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81) E. M. Hassan, <\/strong>M. C. DeRosa* \u201c<\/strong>Recent advances in cancer early detection and diagnosis: role of nucleic acid based aptasensors\u201d TrAC Trends in Anal. Chem.<\/em> 2020<\/strong>, 124,<\/em> 115806.\u00a0 https:\/\/doi.org\/10.1016\/j.trac.2020.115806<\/a>.<\/p>\n

80) R. Velu, S. Srinivasan, A. Singh, <\/strong>M. C. DeRosa* \u201cAn aptamer-based colorimetric lateral flow assay for the detection of human epidermal growth factor receptor 2 (HER2)\u201d Anal Biochem. <\/em>2020<\/strong>, 588<\/em>, 113471, https:\/\/doi.org\/10.1016\/j.ab.2019.113471<\/a>.<\/p>\n

79) M. Loyez, E. Hassan<\/strong>, M. Lobry, F. Liu, C. Caucheteur, R. Wattiez, M. DeRosa, W. Willmore, J. Albert.* \u201cCirculating cancer cell detection using an optical fiber aptasensor\u201d. Proc. SPIE Biophotonics in Point-of-Care.<\/em> 2020,<\/strong> 113610. https:\/\/doi.org\/10.1117\/12.2557775<\/a><\/p>\n

78) N.M. Sopinka*, L. E. Coristine, M. C. DeRosa, C. M. Rochman, B. L. Owens, S. J. Cooke. \u00a0\u00a0\u201cEnvisioning the scientific paper of the future\u201d FACETS <\/em>2020, <\/strong>5,<\/em> 1-16. https:\/\/doi.org\/10.1139\/facets-2019-0012<\/a><\/p>\n

77) A. Koudrina<\/strong>, J. O’Brien, R. Garcia, S. Boisjoli<\/strong>, P. Kan, E. Tsai, M. C. DeRosa*. \u201cAssessment of aptamer targeted contrast agents for monitoring of blood clots in computed tomography and fluoroscopy imaging.\u201d Bioconj. Chem<\/em> 2020, <\/strong>31<\/em>, 2737-2749. https:\/\/doi.org\/10.1021\/acs.bioconjchem.0c00525<\/a><\/p>\n

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76) F. Ciriaco, V. De Leo, L. Catucci, M. Pascale, A. F. Logrieco, M. C. DeRosa, A. De Girolamo*. \u201cAn in silico pipeline for rapid screening of DNA aptamers against mycotoxins: The case study of Fumonisin B1, Aflatoxin B1, and Ochratoxin A\u201d \u00a0Polymers <\/em>2020,<\/strong> 12<\/em>, 2983. https:\/\/doi.org\/10.3390\/polym12122983<\/a><\/p>\n

75) A. Koudrina<\/strong>, M.C. DeRosa*. \u201cAdvances in Medical Imaging: Aptamer- and Peptide-Targeted MRI and CT Contrast Agents.\u201d ACS Omega <\/em>2020,<\/strong> 5,<\/em> 22691-22701. https:\/\/doi.org\/10.1021\/acsomega.0c02650<\/a> (Invited)<\/p>\n

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74) S. Mohan, <\/strong>J. Princz, B. Ormeci, M. C. DeRosa* \u201cMorphological transformation of silver nanoparticles from commercial products: Modeling from product incorporation, weathering through use scenarios, and leaching into wastewater\u201d Nanomaterials <\/em>2019,<\/strong> 9 (9)<\/em>, 1258. https:\/\/doi.org\/10.3390\/nano9091258<\/a>.<\/p>\n

73) R. Massey, E. Morin, M. C. DeRosa, R. Prakash* Label-free Detection of Dopamine Using Aptamer Enhanced Organic-Electrolyte Gated FET Sensor. 2019<\/strong>, 2019 IEEE International Conference on Flexible and Printable Sensors and Systems, DOI: 10.1109\/FLEPS.2019.8792324<\/a><\/p>\n

72) S. Chen, A. M. Auriat, T. Li, T. R. Stumpf, R.Wylie, X. Chen, S. M. Willerth, M.C. DeRosa, M. Tarizian, X. Cao, E. C. Tsai* Advancements in Canadian Biomaterials in Neurotraumatic Diagnosis and Therapies. Processes<\/em> 2019<\/strong>, 7 (6), <\/em>336. https:\/\/doi.org\/10.3390\/pr7060336<\/a><\/p>\n

71) S. Srinivasan<\/strong>, V. Ranganathan<\/strong>, M.C. DeRosa, B.M. Murari* Comparison of turn-on and ratiometric fluorescent G-quadruplex aptasensor approaches for the detection of ATP. Anal. Bioanal. Chem. <\/em>2019<\/strong>, 1-12. https:\/\/doi.org\/10.1007\/s00216-018-1484-x<\/a>\u00a0Front Cover<\/strong><\/p>\n

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70) E. M. <\/strong>Hassan<\/strong>, A. Mohamed, M. C. DeRosa, W. G. Willmore, Y. Hanaoka, T. Kiwa, T. Ozaki*. High-sensitivity detection of metastatic breast cancer cells via terahertz chemical microscopy using aptamers. Sens. Act. B. Chem.<\/em> 2019<\/strong>, 287, <\/em>595-601. https:\/\/doi.org\/10.1016\/j.snb.2019.02.019<\/a><\/p>\n

69) M. Smith<\/strong>, M. C. DeRosa*, Synthesis, Transfer and Characterization of Core-Shell Gold-Coated Magnetic Nanoparticles. MethodsX<\/em>, 2019<\/strong>, 6, 333-354. <\/em>https:\/\/doi.org\/10.1016\/j.mex.2019.02.006<\/a><\/p>\n

68) E. M. McConnell, K. Ventura, Z. Dwyer, <\/strong>M. R. Holahan, M.C. DeRosa* In vivo<\/em> use of a multi-DNA aptamer-based payload\/targeting system to study dopamine dysregulation in the central nervous system. \u00a0ACS Chem. Neuro.<\/em> 2019<\/strong>, 10, <\/em>371-383. <\/em>https:\/\/doi.org\/10.1021\/acschemneuro.8b00292<\/a><\/p>\n

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67) M. Belleperche<\/strong>, M. C. DeRosa* pH-control in aptamer-based diagnostics, therapeutics, and analytical applications. Pharmaceuticals<\/em>\u00a0 2018, <\/strong>11<\/em>, 80 \u2013 93. https:\/\/doi.org\/10.3390\/ph11030080<\/a><\/p>\n

66) R. Velu, <\/strong>M. C. DeRosa*, Lateral Flow Assays for Ochratoxin A: Comparison of Linkage inversion assembled nano-aptasensors (LIANA) and label-free approaches. Analyst, <\/em>2018<\/strong>, 143, <\/em>4566-4574. <\/em>Doi: 10.1039\/C8AN00963E<\/a> Back<\/em><\/strong> Cover and Hot Article<\/em><\/strong><\/p>\n

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65) S. Srinivasan<\/strong>, R. Velu<\/strong>, M. C. DeRosa, and B. M. Murari* Label-free aptasensor based on a fluorescent screening assay for the detection of Salmonella typhimurium. Analytical biochem. <\/em>2018,<\/strong> 559, <\/em>17-23. <\/em>https:\/\/doi.org\/10.1016\/j.ab.2018.08.002<\/a><\/p>\n

64) C. M. Monreal*, J. Zhang, S. Koziel, J. Vidmar, M. Gonz\u00e1lez, F. Matus<\/strong>, S. Baxi, S. Wu, M. C. DeRosa, P. Etcheverria \u201cBacterial community structure associated with the addition of nitrogen and the dynamics of soluble carbon in the rhizosphere of canola (Brassica napus) grown in a Podzol\u201d Rhizosphere<\/em>, 2018<\/strong>, 5<\/em>, 16-25. https:\/\/doi.org\/10.1016\/j.rhisph.2017.11.004<\/a><\/p>\n

63) E. Mastronardi<\/strong>, C. Monreal, M. C. DeRosa* \u201cPersonalized medicine for crops? Opportunities for the application of molecular recognition in agriculture\u201d J. Agri. Food. Chem<\/em> 2018<\/strong>, 66: 6457-6461. DOI: 10.1021\/acs.jafc.7b03295<\/a><\/p>\n

\"Abstract<\/p>\n

Publication list 2009-2017<\/span><\/strong><\/p>\n

62) A. Ruscito, E. M. McConnell, A. Koudrina, R. Velu, C. Mattice, V. Hunt<\/strong>, M. McKeague*, and M. C. DeRosa* \u201cIn Vitro Selection and Characterization of DNA Aptamers to a Small Molecule Target\u201d Current Protocols in Chemical Biology<\/em>, 2017<\/strong>, 9<\/em>, 1\u201336. DOI 10.1002\/cpch.28<\/a><\/span><\/p>\n

61) E. M. Hassan<\/strong>, W. Willmore, M. C. DeRosa* \u201cIn vitro selections of mammaglobin A and mammaglobin B aptamers for the recognition of circulating breast tumor cells\u201d Sci. Rep<\/em> 2017<\/strong>,doi<\/abbr>:10.1038\/s41598-017-13751-z<\/a><\/p>\n

\"Figure<\/p>\n

60) M. McKeague, R. Velu<\/strong>, A. De Girolamo, S. Valenzano<\/strong>, M. Pascale, M.K. Smith<\/strong>, M. C. DeRosa* \u201cComparison of In-Solution Biorecognition Properties of Aptamers against Ochratoxin A\u201d Toxins<\/em> 2017<\/strong> 8<\/em>, 336-340.<\/a><\/p>\n

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59) E. M. Hassan,<\/strong> W.G. Willmore, M.C. DeRosa* \u201cAptamers: Promising Tools for the Detection of Circulating Tumor Cells\u201d Nucl. Acid. Ther. <\/em>2016, <\/strong>26<\/em>, 335-347.<\/em><\/a><\/p>\n

58) E.M. McConnell, R. Bolzon<\/strong>, M. C. DeRosa* \u201cpHAST (pH-driven Aptamer Switch for Thrombin) catch-and-release of target protein\u201d Bioconj. Chem.<\/em>, 2016<\/strong>, 27<\/em>, 1493-1499<\/a>.<\/p>\n

\"Abstract<\/p>\n

57) S. Valenzano*<\/strong>, A. De Girolamo*, M. C. De Rosa*, M. McKeague<\/strong>, R. Schena, M. Pascale \u201cScreening and identification of DNA aptamers to tyramine using in vitro selection and high-throughput sequencing\u201d ACS Comb. Sci<\/em>. 2016<\/strong>, 18<\/em>, 302-313<\/a>. (Cover)<\/em><\/p>\n

<\/p>\n

56) A. Ruscito<\/strong>, M .C. DeRosa* \u201cSmall-Molecule Binding Aptamers: Selection Strategies, Characterization, and Applications\u201d Front. Chem. <\/em>2016, <\/strong>4<\/em>, 14<\/a>.<\/em> (Invited, Special Issue)<\/p>\n

55) A. Ruscito, M. Smith, D. Goudreau<\/strong>, M. C. DeRosa* \u201cCurrent status and future prospects of aptamer-based mycotoxin detection\u201d J. A. O. A. C. Int. <\/em>2016<\/strong>, 99<\/em>, 865-877.<\/a><\/p>\n

54) E. Mastronardi, P. K. Tsae, X. Zhang, A. Foster, Y. Sultan<\/strong>, M. C. DeRosa* \u201cPreparation and Characterization of Aptamer-Polyelectrolyte Films and Microcapsules for Biosensing and Delivery Applications.\u201d Methods <\/em>2016<\/strong>, 97, <\/em>75\u201387<\/a>. (Invited, Special Issue).<\/p>\n

<\/p>\n

53) F. Costantini<\/strong>, C. Sberna, G. Petrucci, M. Reverberi, F. Domenici, C. Fanelli, C. Manetti, G. de Cesare, M. C. DeRosa, A. Nascetti, D. Caputo, \u201cAptamer-based sandwich assay for on chip detection of Ochratoxin A by an array of amorphous silicon photosensors\u201d Sens. Act. B: Chem. <\/em>2016<\/strong>, 230<\/em>, 31-39<\/a>.\"\"<\/p>\n

52) M. McKeague, E. M. McConnell, J. Cruz-Toledo, E. Bernard, A. Foster, E. Mastronardi, X. Zhang, M. Beking, T. Francis, A. Giamberardino, A. Cabecinha, A. Ruscito<\/strong>, R. Aranda-Rodriguez, M. Dumontier*, M. C. DeRosa* \u201cAnalysis of In Vitro Aptamer Selection Parameters.\u201d J. Mol. Evol. <\/em>2015, <\/strong>81<\/em>, <\/strong>150-161. <\/strong><\/a>(Invited, Special Issue)<\/p>\n

<\/p>\n

51) C. M. Monreal, M. C. DeRosa, S. C. Mallubhotla, P. S. Bindraban, C. Dimkpa \u201cNanotechnologies for increasing the crop use efficiency of fertilizer- micronutrients\u201d Biol. Fert. Soils. <\/em>2015<\/strong>, 1-15<\/a>.<\/p>\n

50) G. Luka<\/strong>, A. Ahmadi, H. Najjaran, E. Alocilja, M. C. DeRosa, K. Wolthers, A. Malki, H. Aziz, A. Althani, M. Hoorfar \u201cMicrofluidics integrated biosensors: A leading technology towards lab-on-a-chip and sensing applications\u201d Sensors<\/em> 2015<\/strong>, 15<\/em>, 30011-30031<\/a>.<\/p>\n

49) N. R. Frost, M. McKeague, D. Falcioni, <\/strong>M. C. DeRosa* \u201cAn in solution assay for interrogation of affinity and rational minimer design for small molecule-binding aptamers.\u201d Analyst<\/em>, 2015<\/strong>, 140<\/em>, 6643-6651.<\/a><\/p>\n

\"Graphical<\/p>\n

48) M. McKeague<\/strong>, A. De Girolamo, S. Valenzano<\/strong>, M. Pascale, A. Ruscito<\/strong>, R. Velu<\/strong>, N. R Frost<\/strong>, K. Hill<\/strong>, M. Smith, E. M. McConnell<\/strong>, M. C. DeRosa* \u201cComprehensive Analytical Comparison of Strategies Used for Small Molecule Aptamer Evaluation.\u201d Anal. Chem. <\/em>2015<\/strong>, 87<\/em>, 8606-8612<\/a>. (Chosen for ACS Editor\u2019s Choice)<\/p>\n

\"Abstract<\/p>\n

47) R. Velu, N. Frost<\/strong>, M. C. DeRosa* \u201cLinkage Inversion Assembled Nano-Aptasensors (LIANAs) for Turn-On Fluorescence Detection\u201d Chem. Comm. <\/em>2015<\/strong>, 51<\/em>, 14346-14349<\/a>.<\/p>\n

\"Graphical<\/p>\n

46) C. Mattice<\/strong>, M. C. DeRosa* “Status and Prospects of Aptamers as Drug Components” BioDrugs<\/em>, 2015<\/strong>, 29, <\/em>151-165 <\/a>(Invited review)<\/p>\n

45) P. Tsae<\/strong>, M. C. DeRosa* \u201cOutlook for Aptamers After Twenty Five Years\u201d Curr. Top. Med. Chem. <\/em>2015<\/strong>, 15, <\/em>1153-1159<\/a>. (Invited review).<\/p>\n

<\/p>\n

44) R. Walsh, U. Ho, X.-L. Wang<\/strong>, M. C. DeRosa* \u201cSelective Dopamine Detection Using Aptamer-Functionalized Glassy Carbon Electrodes\u201d Can. J. Chem. <\/em>2015<\/strong>, 93<\/em>, 572-577<\/a>.<\/p>\n

<\/p>\n

43) R. H. Griffin, E. M. McConnell<\/strong>, M. C. DeRosa*, N. G. Tarr* \u201cMOS Testbed for the characterization of Targeted Alpha Therapy Pharmaceuticals.\u201d IEEE Sensors Journal <\/em>2015<\/strong>, 15<\/em>, 1690-1696. (cover)<\/p>\n

\"\"<\/p>\n

42) E. B. Bernard<\/strong>, K. C. Nguyen, M. C. DeRosa, A. F. Tayabali, R. Aranda-Rodriguez \u201cDevelopment of a Bead-Based Aptamer\/Antibody Detection System for C-Reactive Protein. Anal. Biochem. <\/em>2015<\/strong>, 472<\/em>, 67-74.<\/p>\n

41) E. M. McConnell<\/strong>, M. R. Holahan, M. C. DeRosa \u201cOpportunities and Limitations for Aptamers in the Central Nervous System\u201d Nucl. Acids Ther. <\/em>2014 <\/strong>24<\/em>, 388-404. (Invited Review).<\/p>\n

40) M. McKeague <\/strong>and M.C. DeRosa \u201cAptamers and SELEX: Tools for the Development of Transformative Molecular Recognition Technology\u201d Aptamers and Synthetic Antibodies <\/em>2014 <\/strong>1, 12-16. (Invited review)<\/p>\n

39) M. McKeague, V. Ranganathan, K. Hill, <\/strong>V. Bardozy, T. Mezaros, M. C. DeRosa \u201cSelection and characterization of novel DNA aptamers for label-free fluorescence biosensing of ochratoxin A\u201d Toxins <\/em>2014 <\/strong>6, 2435-2452.<\/p>\n

38) A. Foster<\/strong>, M.C. DeRosa. \u201cDevelopment of a Biocompatible Layer-by-Layer Film System using Aptamer Technology for Smart Material Applications\u201d Polymers <\/em>2014 <\/strong>6, 1631-1654.<\/p>\n

37) E. Mastronardi, A. Foster, X. Zhang<\/strong>, M. C. DeRosa \u201cSmart materials based on DNA aptamers: Taking aptasensing to the next level.\u201d Sensors <\/em>2014 <\/strong>14, 3156-3171. (Invited Review)<\/p>\n

36) F. Matus, C. Monreal, M. Lefebvre, S-S. Wu, R. Desjardins, M. C. DeRosa \u201cProducing Isotopically Enriched Plant, Soil Solution and Rhizosphere Soil Materials Over a Few Hours\u201d Comm. Soil Sci Plant Anal. <\/em>2014, <\/strong>45<\/em>, 865-880.<\/p>\n

35) R. H. Griffin, <\/strong>O. Mozenson, M.A. Beking<\/strong>, M. C. DeRosa, G. Lopinski, N.G. Tarr \u201cQuantitative radiolabeled biomolecule detection using a functionalized CMOS sensor\u201d IEEE Trans. Nucl. Sci<\/em>., 2014<\/strong>, 61, <\/em>1112-1117.<\/p>\n

34) S. Smiley, <\/strong>M. C. DeRosa, B. Blais \u201cImmobilization of DNA Aptamers on Polyester Cloth for Antigen Detection by Dot Blot Immunoenzymatic Assay (Aptablot)\u201d J. Nucleic Acids <\/em>2013, <\/strong>2013\u00b8<\/em>963542.<\/p>\n

33) X. Zhang, <\/strong>D. Chabot, Y. Sultan<\/strong>, C. Monreal, M. C. De Rosa \u201cTarget-molecule-triggered rupture of aptamer-encapsulated polyelectrolyte microcapsules.” ACS Appl. Mater. Interfaces <\/em>2013<\/strong>, 5<\/em>, 5500-5507.<\/p>\n

32) A. Giamberardino<\/strong>, M. Labib, E. Hassan<\/strong>, J. A. Tetro, S. Springthorpe, S. A. Sattar, M. V. Berezovski and M. C. DeRosa \u201cUltrasensitive Norovirus Detection using DNA Aptasensor Technology.\u201d PLoS One, <\/em>2013, <\/strong>8<\/em>, e79087.<\/p>\n

31) M. McKeague, A. Foster, Y. Miguel, A. Giamberardino, C. Verdin, J.Y.S. Chan, <\/strong>M.C. DeRosa \u201cDevelopment of nucleic acid probes for direct and selective homocysteine detection in human serum\u201d RSC Advances <\/em>2013<\/strong>, 3i, 24415-24422.<\/p>\n

30) J. Albert, S. Lepinay, C. Caucheteur, M. C. DeRosa \u201cHigh resolution grating-assisted surface Plasmon resonance fiber optic biosensor\u201d Methods <\/em>2013<\/strong>, 63, <\/em>239-254.<\/p>\n

29) M. McKeague <\/strong>and M. C. DeRosa, \u201cChallenges and Opportunities for Small Molecule Aptamer Development,\u201d J. Nucleic Acids<\/em>, 2012<\/strong>, 2012,<\/em>748913. (invited review).<\/p>\n

28) Bernard, E. D., Beking, M. A., <\/strong>Rajamanickam, K., Tsai, E. C. and M. C. DeRosa “Target binding improves relaxivity in aptamer-gadolinium conjugates.” J. Biol. Inorg. Chem <\/em>2012, <\/strong>17<\/em>, 1159-1175.<\/p>\n

27) J. Cruz-Toledo,M. McKeague, X. Zhang, A. Giamberardino, E. McConnell, T. Francis<\/strong>, M. C. DeRosa, and M. Dumontier “Aptamer base: a collaborative knowledge base to describe aptamers and SELEX experiments” Database <\/em>2012, <\/strong>bas006.<\/p>\n

26) B. Xi, I. P. Liu, G. L. Xu, M. M. Choudhuri<\/strong>, M. C. DeRosa, R. J. Crutchley, T. Ren “Modulation of Electronic Couplings within Ru2\u2013Polyyne Frameworks” J. Am. Chem. Soc<\/em>. 2011<\/strong>, 133<\/em>, 15094\u201315104.<\/p>\n

25) Y. Shevchenko, T. J. Francis, D. A. Blair, R. Walsh, <\/strong>M. C. DeRosa, J. Albert “In situ biosensing with a surface plasmon resonance fiber grating aptasensor” Anal. Chem<\/em>. 2011<\/strong>, 83<\/em>, 7027-7034.<\/p>\n

24) M. R. Holahan*, D. Madularu, E. M. McConnell, R. Walsh<\/strong>, M. C. DeRosa* “Intra-accumbens injection of a dopamine aptamer abates MK-801-induced cognitive dysfunction in a model of schizophrenia” PLoS ONE <\/em>2011<\/strong>, 6<\/em>, e22239.<\/p>\n

23) Y. Sultan <\/strong>and M. C. DeRosa* \u201cTarget Binding influences permeability in aptamer-polyelectrolyte microcapsules\u201d Small <\/em>2011<\/strong>, 7, 1219-1226.<\/p>\n

22) A. De Girolamo*, M. McKeague<\/strong>, J.D. Miller, M.C. DeRosa, A. Visconti* \u201cDetermination of ochratoxin A in wheat after clean-up through a DNA aptamer-based solid phase extraction column\u201d Food Chem. <\/em>2011<\/strong>, 127<\/em>, 1378\u20131384.<\/p>\n

21) M. McKeague, C. R. Bradley, <\/strong>A. DeGirolamo, A. Visconti, J. David Miller, M. C. DeRosa* \u201cScreening and Initial Binding Assessment of Fumonisin B1 Aptamers\u201d Int. J. Mol. Sci. <\/em>2010<\/strong>, 11<\/em>, 4864-4881. (invited)<\/p>\n

20) X.-M. Luo, M. McKeague<\/strong>, S. Pitre, M. Dumontier, J. Green, A. Golshani, M. C. DeRosa*, F. Dehne* \u201cComputational Approaches Towards the Design of Pools for the In Vitro Selection Of Complex Aptamers\u201d RNA <\/em>2010<\/strong>, 16<\/em>, 2252-2262. Highlighted by the Faculty of 1000<\/em><\/strong><\/p>\n

19) M. C. DeRosa *, C. Monreal, M. Schnitzer, R. Walsh, Y. Sultan <\/strong>\u201cProspects for Nanotechnology in Fertilizers\u201d Nature Nano. <\/em>2010<\/strong>, 5<\/em>, 91. Highlighted by the Chemical and Engineering News<\/strong><\/em><\/p>\n

18) J. A. Lee<\/strong>, M.C. DeRosa* \u201cA pH-driven DNA switch based on the A+\u2022G mispair\u201d Chem. Commun. <\/em>2010<\/strong>, 46<\/em>, 418 \u2013 420.<\/p>\n

17) R. Walsh<\/strong>, M. C. DeRosa* \u201cRetention of Function in the DNA homolog of the RNA aptamer\u201d Biochem. Biophys. Res. Commun. <\/em>2009<\/strong>, 388<\/em>, 732-735.<\/p>\n

16) Y. Sultan, R. Walsh, <\/strong>C. Monreal, M.C. DeRosa* \u201cPreparation of Functional Aptamer Films by Layer-by-Layer Self-Assembly\u201d Biomacromolecules <\/em>2009<\/strong>, 10<\/em>, 1149-1154.<\/p>\n

<\/p>\n

<\/p>\n","protected":false},"excerpt":{"rendered":"

Check out the Maria’s Google Scholar page\u00a0for the latest information about the DeRosa lab publications. Patent Applications APTAMERS AS A THERAPEUTIC TOOL TO PREVENT PROTEIN AGGREGATION IN NEURODEGENERATIVE DISEASE\u00a0DEROSA, Maria Cynthia; HOLAHAN, Matthew Richard; MCCONNELL, Erin Marie; VENTURA, Katelyn Victoria; CALLAHAN, Joshua Parker; HUNT, Vernon Harold Daniel US Patent Application\u00a062\/575,813\u00a0https:\/\/patents.google.com\/patent\/WO2019079887A1\/en ROOT EXUDATE-ACTIVATED SYSTEM FOR AGROCHEMICAL […]<\/p>\n","protected":false},"author":5,"featured_media":0,"parent":0,"menu_order":0,"comment_status":"closed","ping_status":"closed","template":"","meta":{"_relevanssi_hide_post":"","_relevanssi_hide_content":"","_relevanssi_pin_for_all":"","_relevanssi_pin_keywords":"","_relevanssi_unpin_keywords":"","_relevanssi_related_keywords":"","_relevanssi_related_include_ids":"","_relevanssi_related_exclude_ids":"","_relevanssi_related_no_append":"","_relevanssi_related_not_related":"","_relevanssi_related_posts":"","_relevanssi_noindex_reason":"","_mi_skip_tracking":false,"_exactmetrics_sitenote_active":false,"_exactmetrics_sitenote_note":"","_exactmetrics_sitenote_category":0,"footnotes":"","_links_to":"","_links_to_target":""},"yoast_head":"\nPublications - LADDER<\/title>\n<meta name=\"description\" content=\"Check out the Maria's Google Scholar page\u00a0for the latest information about the DeRosa lab publications. 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