level-one heading

Kolabtreeを選ぶ理由
開始はすばやく簡単です。初期費用はかかりません。
サービス依頼と専門家への見積依頼は無料です。
Kolabtree の作業範囲に同意する前に、専門家と要件を詳しく相談できます。
専門家と直接連携し、必要な成果を正しく得られます。
専門家を採用したらプロジェクトに資金を入れ、作業完了後に成果物を承認できます。
この専門家をプロジェクトに採用したいですか? 見積もりを依頼 無料で。
プロフィール詳細
プロジェクトを作成
★★★★★
☆☆☆☆☆
Magda B.に依頼
Portugal

An experienced researcher in optical biosensor design and nanomaterial's synthesis and characterisation.

プロフィール概要
専門分野
サービス
Writing Technical Writing
Research Market Research, User Research, Fact Checking, Gray Literature Search, Systematic Literature Review
Consulting Scientific and Technical Consulting
Data & AI Data Visualization, Big Data Analytics, Data Processing, Data Insights
職務経験

PhD student

University of Dundee

2月 2019 - 現在

Master research student

Universidad Complutense de Madrid

10月 2017 - 4月 2018

学歴

Research Postgraduate Student (Science and Engineering Office)

University of Dundee

2月 2019 - 現在

MSc Biofísica e Bionanossistemas (Departamento de Física)

Universidade do Minho

9月 2016 - 12月 2018

BSc Biologia-Geologia (Departamento de Ciências da Terra)

Universidade do Minho

9月 2013 - 8月 2016

認定資格
  • 認定資格の詳細は未入力です。
出版物
JOURNAL ARTICLE
Rapid and selective aptamer-based fluorescence detection of salivary lysozyme using plasmonic metal-enhanced fluorescence of ZnSSe alloyed quantum dots-gold nanoparticle nanohybrid @article{645f408466894ca8a5237200368c8d9a, title = "Rapid and selective aptamer-based fluorescence detection of salivary lysozyme using plasmonic metal-enhanced fluorescence of ZnSSe alloyed quantum dots-gold nanoparticle nanohybrid", abstract = "We report on the construction of an aptamer (Apt)-based fluorescent biosensor platform for salivary lysozyme using plasmonic metal-enhanced fluorescence of ZnSSe alloyed quantum dots (QDs)-gold nanoparticle (AuNP) nanohybrid. Salivary lysozyme was used as a model analyte to develop the Apt fluorescence biosensor assay for real-life detection of human saliva. To construct the biosensor, thiolated anti-salivary lysozyme DNA Apt was immobilised on the L-cysteine-ZnSSe QDs surface to form a functionalised Apt-ZnSSe-QDs. Thereafter, citrate-AuNPs was bonded to the Apt-ZnSSe-QDs to form an Apt-ZnSSe-QDs-AuNP fluorescence biosensor probe. Using affinity-based biomolecular binding interaction between the Apt and target lysozyme, the binding effect induced localised surface plasmon resonance (LSPR) signal from AuNPs to amplify the fluorescence signal of the QDs upon lysozyme recognition. Probing the LSPR signal amplifying effects of different plasmonic NPs, our analysis showed that spherical citrate-AuNPs of size 6 nm was most effective in amplifying the fluorescence signal of the biosensor probe. Under optimum experimental reaction conditions, salivary lysozyme was detected quantitatively within 5 min with a detection limit of 22.9 μg/mL and was highly selective against other tested enzymes. Application of the Apt-ZnSSe QDs-AuNP biosensor probe to detect real human saliva samples was successfully achieved.", keywords = "AuNPs, Detection, Fluorescence, Lysozyme, QDs", author = "Pereira-Barros, {Magda A.} and {Nic Daeid}, Niamh and Oluwasesan Adegoke", note = "Funding Information: We gratefully acknowledge the support of the Leverhulme Trust for funding this work. Publisher Copyright: {\textcopyright} 2021 Elsevier B.V.", year = "2021", month = sep, day = "1", doi = "10.1016/j.jphotochem.2021.113384", language = "English", volume = "418", journal = "Journal of Photochemistry and Photobiology A: Chemistry", issn = "1010-6030", publisher = "Elsevier", } . Journal of Photochemistry and Photobiology A: Chemistry.
Magda A. Pereira-Barros, Niamh Nic Daeid, Oluwasesan Adegoke(2021). Rapid and selective aptamer-based fluorescence detection of salivary lysozyme using plasmonic metal-enhanced fluorescence of ZnSSe alloyed quantum dots-gold nanoparticle nanohybrid . Journal of Photochemistry and Photobiology A: Chemistry. 418. Microsoft.AspNetCore.Mvc.Localization.LocalizedHtmlString 113384. Elsevier {BV}
Aptamer-based cocaine assay using a nanohybrid composed of ZnS/Ag2Se quantum dots, graphene oxide and gold nanoparticles as a fluorescent probe @article{488f4921cf6b46c3aeb9358b56ce6da6, title = "Aptamer-based cocaine assay using a nanohybrid composed of ZnS/Ag2Se quantum dots, graphene oxide and gold nanoparticles as a fluorescent probe", abstract = "Authors report on a new fluoro-graphene-plasmonic nanohybrid aptamer-based fluorescent nanoprobe for cocaine. To construct the nanoprobe, newly synthesized glutathione-capped ZnS/Ag 2Se quantum dots (QDs) were first conjugated to graphene oxide (GO) to form a QD-GO nanocomposite. The binding interaction resulted in a fluorescence turn-ON. Thereafter, cetyltrimethylammonium bromide (CTAB)-gold nanoparticles (AuNPs) were directly adsorbed on the QD-GO nanocomposite to form a novel QD-GO-CTAB-AuNP nanohybrid assembly that resulted in a fluorescence turn-OFF. Streptavidin (strep) was then adsorbed on the QDs-GO-CTAB-AuNP nanohybrid assembly which allowed binding to a biotinylated MNS 4.1 anticocaine DNA aptamer (B) receptor. The addition of cocaine into the strep-B-QDs-GO-CTAB-AuNP aptamer nanoprobe system aided affinity to the aptamer receptor and in turn turned on the fluorescence of the nanoprobe in a concentration-dependent manner. Under optimum experimental conditions, we found the strep-B-QD-GO-CTAB-AuNP to be far superior in its sensitivity to cocaine than the tested strep-B-QDs (no GO and CTAB-AuNPs), strep-B-QD-CTAB-AuNP (no GO) and strep-B-QD-GO (no CTAB-AuNP). In addition, the investigation of localized surface plasmon resonance (LSPR) amplified signal from tested plasmonic NPs shows that CTAB-AuNPs was far superior in amplifying the fluorescence signal of the nanoprobe. A detection limit of 4.6 nM (1.56 ng.mL −1), rapid response time (~2 min) and excellent selectivity against other drugs, substances and cocaine metabolites was achieved. The strep-B-QD-GO-CTAB-AuNP aptamer-based fluorescent nanoprobe was successfully applied for the determination of cocaine in seized adulterated cocaine samples.", keywords = "Fluorescence, Gold nanoparticle, Graphene oxide, Nanohybrid, Quantum dots", author = "Oluwasesan Adegoke and Pereira-Barros, {Magda A.} and Svetlana Zolotovskaya and Amin Abdolvand and {Nic Daeid}, Niamh", note = "Funding: EPSRC (EP/P008135/2; EP/S017445/1)", year = "2020", month = feb, doi = "10.1007/s00604-019-4101-6", language = "English", volume = "187", journal = "Microchimica Acta", issn = "0026-3672", publisher = "Springer Verlag", number = "2", } . Microchimica Acta.
Magda A. Pereira-Barros and M. F{\'{a}}tima Barroso and Laura Mart{\'{\i}}n-Pedraza and Eva Vargas and Sara Bened{\'{e}} and Mayte Villalba and Jo{\~{a}}o M. Rocha and Susana Campuzano and Jos{\'{e}} M. Pingarr{\'{o}}n(2019). Direct PCR-free electrochemical biosensing of plant-food derived nucleic acids in genomic DNA extracts. Application to the determination of the key allergen Sola l 7 in tomato seeds . Biosensors and Bioelectronics. 137. Microsoft.AspNetCore.Mvc.Localization.LocalizedHtmlString 171--177. Elsevier {BV}