Automated nucleic acids isolation using paramagnetic microparticles coupled with electrochemical detection

Easy, efficient and low demanding separation of mRNA from biological material is needed to study gene expression and to use in chip technologies. It is common knowledge that each mRNA molecule contains sequence of 25 adenines. This feature can be used for binding mRNA on the surface of the particles...

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Bibliographic Details
Published in:Talanta (Oxford) 2009-07, Vol.79 (2), p.402-411
Main Authors: Huska, Dalibor, Hubalek, Jaromir, Adam, Vojtech, Vajtr, David, Horna, Ales, Trnkova, Libuse, Havel, Ladislav, Kizek, Rene
Format: Article
Language:English
Subjects:
Adenine
Analytical chemistry
Automation
Base Pairing
Brain Chemistry
Brain Injuries - genetics
Brain tissue
Cadmium
Chemistry
Cyclic voltammetry
Electrochemical methods
Electrochemical Techniques - methods
Exact sciences and technology
General, instrumentation
Humans
Isolation
Magnetic particle and bead
Magnetics
Maize plants
mRNA
Nucleic Acid Hybridization
Nucleic Acids - isolation & purification
Particle Size
RNA, Messenger - isolation & purification
Square wave voltammetry
Thymine
Zea mays
Zea mays - genetics
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Summary:Easy, efficient and low demanding separation of mRNA from biological material is needed to study gene expression and to use in chip technologies. It is common knowledge that each mRNA molecule contains sequence of 25 adenines. This feature can be used for binding mRNA on the surface of the particles coated by thymine chains. The present work reports on suggesting and optimizing of mRNA separation and detection from biological material via paramagnetic microparticles coupled with electrochemical detection. Primarily we optimized cyclic and square wave voltammetric conditions to detect poly(A), which was used as standard to mimic behaviour of mRNA. Under the optimized square wave voltammetric conditions (frequency 280 Hz, accumulation time 200 s, supporting electrolyte and its temperature: acetate buffer 4.6 and 35 °C) we estimated detection limit down to 1 ng of poly(A) per ml. To enhance effectiveness and repeatability of isolation of nucleic acid automated approach for rinsing and hybridizing was proposed. We optimized the whole procedure and experimental conditions. Using automated way of isolation and under optimized conditions the yield of poly(A) (isolated concentration of poly(A)/given concentration of poly(A)*100) was approximately 75%. The suggested and optimized method for poly(A) isolation and detection was utilized for the analysis of brain tissues of patients with traumatic brain injury. The total amount of isolated mRNA varied from 40 to 760 g of mRNA per g of brain tissue. The isolation of mRNA from six samples per run was not longer than 2.5 h. Moreover, we applied the optimized procedure on fully automated pipetting instrument to isolate mRNA. The instrument was successfully tested on the analysis of extracts from roots of maize plants treated with cadmium(II) ions.
ISSN:0039-9140
1873-3573
DOI:10.1016/j.talanta.2009.04.007