Magnetic micro and nanoparticles for unique sequences barcoding
Kristyna Cihalova, Dagmar Chudobova, Pavel Kopel, Marie Konecna, Vojtech Adam, Rene Kizek
This review is focused on identification of bacterial species by their antigenes by barcoding oligonucleotides by application of magnetic micro and nanoparticles. In the first part of this review is discussed the structures and types of magnetic particles and their synthesis. In the next and the most important part we described the principle and the existing status of barcoding system and antigenes markers for identification of organisms such as animals, plants and microorganisms.
Fig. 1: Isolation of antigen using antibodies, oligonucleotides and magnetic separation followed by detection of binding of the oligonucleotide to the complementary odseparovaného olligonukleotidům using various methods.
Fig. 2: Isolation of an oligonucleotide using complementary oligonucleotides to the magnetic particles and on the particle barkódovými with oligonucleotides complementary to the oligonucleotide at the same time in setting. Magnetic separation with subsequent detection of binding of the oligonucleotide to the complementary odseparovaného olligonukleotidům using various methods.
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J.Met.Nano:
volume-1, issue-2
- Nanopores as a modern tool for DNA sequencing
- Use of mass spectrometry technique (MALDI-TOF/TOF) for the characterization of metallothionein in biological systems
- Doxorubicin: help and threat in cancer therapy
- Therapeutical application of antiviral peptides against influenza virus
- Effect of antimicrobial peptides
- Magnetic micro and nanoparticles for unique sequences barcoding
- Study of interaction of the receptor for the hemagglutinin
- Risks associated with exposure to estrogens and substances with estrogenic activity and their elimination from water environment
- Electrochemical study of flavonoids in wine
- Electrochemical analysis of resveratrol in wine
- Optimization of multiplex PCR
- Identification of microorganisms using MALDI–TOF MS
- Influence study of non-platinum cytotoxic drugs on polymerase chain reaction