Project detail

The development of encapsulation magnetic nano- and microparticles using real time polymerase chain reaction

Duration: 01.02.2013 — 24.11.2016

Funding resources

Czech Science Foundation - Postdoktorandské granty

- whole funder (2013-02-01 - 2016-11-24)

On the project

Navrhovaný projekt se zabývá vývojem jednoduché metody pro studium enkapsulace magnetických jader pri syntéze nano- a mikrocástic pro aplikace v molekulární diagnostice. Oxidy železa a nekteré látky používané pri stabilizaci magnetických jader snižují biokompatibilitu navrhovaných nosicu, proto je dokonalé pokrytí jader duležitým predpokladem pro jejich použití v molekulární diagnostice. Stupen pokrytí nosicu ruznými nízko- nebo vysokomolekulárními látkami (polymerní vrstvou) bude overován pomocí polymerázové retezové reakce v reálném case (RT-PCR). V závislosti na dokonalosti pokrytí nosicu výše uvedenými látkami bude sledována úcinnost amplifikace DNA. Výsledky budou statisticky vyhodnoceny. Konecným cílem projektu bude príprava magnetických nano- a mikrocástic vhodných pro molekulárne diagnostické aplikace.

Description in English
The proposed project deals with the development of simple method for the study of magnetic cores encapsulation in the synthesis of nano-and microparticles for applications in molecular diagnostics. Iron oxides and some substances used to stabilize magnetic cores reduce biocompatibility of the proposed carriers. Therefore perfectly encapsulated cores are very important for their application in molecular diagnostics. The degree of carrier’s coverage with a variety of low-or highmolecular weight compounds (polymer layer) will be verified by polymerase chain reaction in real time (RT-PCR). The effectiveness of DNA amplification will be followed up depending on the carrier’s encapsulation by the above mentioned agents. The results will be statistically evaluated. Final aim of the project is to prepare magnetic nano-and microparticles suitable for molecular diagnostic applications.

Keywords
enkapsulace magnetických částic, PCR v reálném čase

Key words in English
magnetic particles encapsulation, real-time polymerase chain reaction

Mark

GP13-32840P

Default language

Czech

People responsible

Trachtová Štěpánka, Ing., Ph.D. - principal person responsible

Units

Faculty of Chemistry
- beneficiary (2013-02-19 - not assigned)

Results

TRACHTOVÁ, Š.; ŠPANOVÁ, A.; PRETTL, Z.; HORÁK, D.; RITTICH, B. Magnetic driven separation techniques - DNA isolation from probiotic food samples. Microbiology and Immunology of Mucosa Probiotics Conference 2013. 1. Kudowa Zdrój, Polsko: Institute of Immunology and Experimental Therapy Polish Academy of Science, 2013. p. 27-27. ISBN: 978-83-928488-3-7.
Detail

TRACHTOVÁ, Š.; ŠPANOVÁ, A.; TÓTH, J.; PRETTL, Z.; HORÁK, D.; RITTICH, B.; GYENIS, J. Magnetic driven separation techniques. Kudowa Zdrój, Polsko: Institute of Immunology and experimental therapy Polish Academy of Science, 2013. p. 27-27.
Detail

ČAKAJDOVÁ, M.; TRACHTOVÁ, Š.; ŠPANOVÁ, A.; HORÁK, D.; RITTICH, B. DNA based identification of microorganisms in a probiotic products. Microbiology and Immunology of Mucosa Probiotics Conference 2013. 1. Kudowa Zdrój, Polsko: Institute of Immunology and Experimental Therapy Polish academy of Science, 2013. p. 41-41. ISBN: 978-83-928488-3-7.
Detail

TRACHTOVÁ, Š.; ŠPANOVÁ, A.; HORÁK, D.; RITTICH, B. The Study of magnetic P(HEMA-co-GMA) and P(GMA) microspheres using real-time PCR. Frontiers of Polymer Colloids: From Synthesis to Macro-Scale and Nano-Scale Applications - Programme Booklet. 1. Praha, Czech Republic: Institute of Macromolecular Chemistry, Academy Science of the Czech Republic, 2014. p. 145-145. ISBN: 978-80-85009-80-4.
Detail

TRACHTOVÁ, Š.; ŠPANOVÁ, A.; HORÁK, D.; RITTICH, B.; ZAPLETALOVÁ, H.; KOLÁŘOVÁ, H. The study of encapsulation magnetic nano- and microparticles using real time polymerase chain reaction. BOOK OF ABSTRACT CEITEC Annual Conference “Frontiers in Material and Life Sciences. Czech Republic, Brno: Masaryk University, Brno, 2014. p. 233-233. ISBN: 978-80-210-7159-9.
Detail

TRACHTOVÁ, Š.; ŠPANOVÁ, A.; RITTICH, B.; HORÁK, D. Study on the encapsulation of magnetic cores using real time polymerase chain reaction. Dresden, Germany: Technische Universitat Dresden, 2014. p. 166-166.
Detail

TRACHTOVÁ, Š.; ŠPANOVÁ, A.; HORÁK, D.; HLÍDKOVÁ, H.; KOSTIV, U.; PATSULA, V.; ZAPLETALOVÁ, H.; RITTICH, B. The evaluation of magnetic particles suitable for DNA isolation using real time PCR. Bielawa, Polsko: Institute of Immunology and Experimental Therapy Polish Academy of Science, 2015.
Detail

TRACHTOVÁ, Š.; ŠPANOVÁ, A.; TÓTH, J.; PRETTL, Z.; HORÁK, D.; GYENIS, J.; RITTICH, B. Solid-phase DNA isolation from food matrices using hydrophilic magnetic microspheres. FOOD AND BIOPRODUCTS PROCESSING, 2015, vol. 94, no. 1, p. 375-381. ISSN: 0960-3085.
Detail

HORÁK, D.; HLÍDKOVÁ, H.; TRACHTOVÁ, Š.; ŠLOUF, M.; RITTICH, B.; ŠPANOVÁ, A. Evaluation of poly(ethylene glycol)-coated monodispersed magnetic poly(2-hydroxyethyl methacrylate) and poly(glycidyl methacrylate) microspheres by PCR. European Polymer Journal, 2015, vol. 68, no. 1, p. 687-696. ISSN: 0014-3057.
Detail

TRACHTOVÁ, Š.; ZAPLETALOVÁ, H.; ŠPANOVÁ, A.; HORÁK, D.; KOLÁŘOVÁ, H.; RITTICH, B. The evaluation of magnetic polymethacrylate-based microspheres used for solid phase DNA micro-extraction. Chromatography, 2015, vol. 2, no. 2, p. 156-166. ISSN: 2227-9075.
Detail

TRACHTOVÁ, Š.; ŠPANOVÁ, A.; HORÁK, D.; HLÍDKOVÁ, H.; KOSTIV, U.; RITTICH, B. The study of biocompatibility of magnetic particles using amplification methods. Brno, Czech Republic: 2015. p. 168-168.
Detail

TRACHTOVÁ, Š.; ŠPANOVÁ, A.; HORÁK, D.; KOZÁKOVÁ, H.; RITTICH, B. Real-time polymerase chain reaction as a tool for evaluation of magnetic poly(glycidyl methacrylate)-based microspheres in molecular diagnostics. CURRENT PHARMACEUTICAL DESIGN, 2016, vol. 22, no. 5, p. 639-646. ISSN: 1381-6128.
Detail

VAŠÍČEK, R.; VAŇÁSEK, J.; KONEČNÁ, J.; TRACHTOVÁ, Š.; ŠPANOVÁ, A.; RITTICH, B. Detection of Lactobacillus acidophilus species in the probiotic meat product. Brno, Czech Republic: Brno University of Technology, Faculty of Chemistry, 2015. p. 103-103.
Detail

VAŠÍČEK, R.; VAŇÁSEK, J.; KONEČNÁ, J.; TRACHTOVÁ, Š.; ŠPANOVÁ, A.; RITTICH, B. Detection of Lactobacillus acidophilus species in the probiotic meat product. Chemistry & Life 2015 – Book of Abstracts. 1. Brno, Czech Republic: Brno University of Technology, Faculty of Chemistry, 2015. p. 103-103. ISBN: 978-214-5228-2.
Detail

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