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2004

The availability of sufficient quantities of quality DNA is always a crucial point in DNA based methods, i.e. for PCR, DNA sequencing, Southern blotting, and microarrays [1]. The same is true for the PCR-based methods for detection of genetically modified food [2]. During the production chain foods passes several physical, biological, and chemical processes, which all negatively influences on the quantity of available DNA. The phenomenon is especially expressive when high temperature treatment is performed at low pH [3]. The existing methods for DNA isolation from food cannot always fulfill the expectations of quantity and quality of isolated DNA. Furthermore they usually include 100 mg of sample and are difficult to scale-up [4]. Four major chromatographic modes are used for the separation of DNA: size-exclusion, anion-exchange, ion-pair reversephased, and slalom chromatography. Of these, anion-exchange chromatography combined with micropellicular packing is described as the most prominent technique so far [1].
Anion-exchange CIM® (Convective Interaction Media) monolithic columns allow fast and flow unaffected separation of several biomolecules, including nucleic acids [5].

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2003

The availability of sufficient quantities of quality DNA is always a crucial point in DNA based methods, i.e. for PCR, DNA sequencing, Southern blotting, and microarrays [1]. The same is true for the PCR-based methods for detection of genetically modified food [2]. During the production chain foods passes several physical, biological, and chemical processes, which all negatively influences on the quantity of available DNA. The phenomenon is especially expressive when high temperature treatment is performed at low pH [3].

The existing methods for DNA isolation from food cannot always fulfill the expectations of quantity and quality of isolated DNA. Furthermore they usually include 100 mg of sample and are difficult to scale-up [4]. Four major chromatographic modes are used for the separation of DNA: size-exclusion, anion-exchange, ion-pair reversephased, and slalom chromatography. Of these, anion-exchange chromatography combined with micropellicular packing is described as the most prominent technique so far [1].

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The availability of sufficient quantities of quality DNA is always a crucial point in DNA-based methods, i.e. for PCR, DNA sequencing, Southern blotting, and microarrays [1]. The same is true for the PCR-based methods of GMO detection in food [2]. During the production chain foods passes several physical, biological, and chemical processes, which all negatively influences on the quantity of available DNA. The phenomenon is especially expressive when high temperature treatment is performed at low pH [3].

The existing methods, for DNA isolation from food, cannot always fulfill the expectations of quantity and quality of isolated DNA. Furthermore they usually include 100 mg of sample and are difficult to scale-up [4]. Four major chromatographic modes are used for the separation of DNA: size-exclusion, anionexchange, ion-pair reverse-phased, and slalom chromatography. Of these, anionexchange chromatography combined with micropellicular packing is described as the most prominent technique so far [1].

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1999

Synthetic oligonucleotides play an important role as novel therapeutic agents.

One of the most important, but also very time-consuming steps in synthetic oligonucleotides production is their purification. Due to their high-resolution power, reversed-phase and ion-exchange chromatography are the most widely used techniques for these purposes. For the reversed-phase separations oligonucleotides need to be kept as 5'-O-dimethoxytrityl derivatives until the purification process is completed and only then the detritylation takes place. Both these steps lower the yield of the production process. In the contrary, ion-exchange chromatography offers applications to deprotected oligonucleotides directly and that is the reason why this chromatography mode is more preferred.

Convective Interaction Media (CIM) are newly developed polymerbased monolithic supports allowing high resolution separations which can be carried out within seconds in the case of analytical units - disks. This is due to predominantly convective mass transport of biomolecules between the mobile and stationary phase and very low dead volumes. Additionally, the dynamic binding capacity is not affected by high flow rates.

In this work weak (DEAE) anion-exchange CIM supports have been successfully applied for the analysis and purification of synthetic oligonucleotides.

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