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I. Gutierrez-Aguirrea, A. Steyer, M. Banjac, P. Kramberger, On-site reverse transcription-quantitative polymerase chain reaction detection Journal of Chromatography A, 1218 (2011) 2368–2373

Rotaviruses are the leading cause of gastroenteritis in children and they exist widely in water environments. Ingestion of 10-100 viral particles is enough to initiate disease, what calls for extremely sensitive detection methods. In this study we have confirmed the validity of a recently published method for rotavirus concentration and detection based on the combination of methacrylate monoliths and realtime reverse transcription-quantitative PCR (RT-qPCR). The method was used to concentrate rotaviruses from different tap water and environmental water samples collected in Slovenia within years 2007 and 2009. The performance of virus concentration using monolithic supports was improved in comparison to the one of tangential ultrafiltration upon application of both methods on a range of environmental samples. Several samples were successfully concentrated on-site after successful adaptation of the method to field requirements. In such on-site format, the combination of concentration using CIM and detection using RT-qPCR detected as low as 30 rotavirus particles/ml, spiked in an environmental water sample.

M. R. Etzel, T. Bund Monoliths for the purification of whey protein-dextran conjugates Journal of Chromatography A, 1218 (2011) 2445-2450

Proteins conjugated to neutral biopolymers are of keen interest to the food and pharmaceutical industries. Conjugated proteins are larger and more charge shielded than un-reacted proteins, making purification difficult using conventional beaded chromatographic supports because of slow mass transfer rates, weak binding, and viscous solutions. Past methods developed for pharmaceuticals are unsuitable for foods. In this work, a food-grade whey protein–dextran conjugate was purified from a feed solution also containing un-reacted protein and dextran using either a column packed with 800mL of a beaded support that was specifically designed for purification of conjugated proteins or an 8mL tube monolith. The monolith gave a similar dynamic binding capacity as the beaded support (4–6 g/L), at a 42-fold greater mass productivity, and 48-fold higher flow rate, albeit at somewhat lower conjugate purity. Performance of the monolith did not depend on flow rate. In conclusion, monoliths were found to be well suited for the purification of whey protein-dextran conjugates.

P. Gagnon, G. Rodriquez, S. Zaidi Dissociation and fractionation of heavy and light chains from IgG monoclonal Journal of Chromatography A, 1218 (2011) 2402-2404

A basic method for dissociation and fractionation of monoclonal IgG heavy and light chain is described. It employs less noxious and hazardous reagents than the classical mercaptoethanol/propionic acid process and replaces size exclusion chromatography with cation exchange on a monolith to improve productivity. Significant scope remains to refine the conditions. The method can be applied to other disulfide bonded proteins with significant affinity for cation exchangers.

Cristina Peixoto, Tiago Vicente1, Cristina Peixoto, Hanna P. Lesch, Anna Laitinen, Methacrylate-based monolithic layers for planar chromatography of polymers Journal of Chromatography A, 1218 (2011) 2425-2431

A series of macroporous monolithic methacrylate-based materials was synthesized by in situ free radical UV-initiated copolymerization of functional monomers, such as glycidyl methacrylate (GMA), butyl methacrylate (BuMA), 2-aminoethyl methacrylate (AEMA), 2-hydroxyethyl methacrylate (HEMA) and 2-cyanoethyl methacrylate (CEMA), with crosslinking agent, namely, ethylene glycol dimethacrylate (EDMA). The materials obtained were applied as the stationary phases in simple and robust technique – planar chromatography (PLC). The method of separation layer fabrication representing macroporous polymer monolith bound to the specially prepared glass surface was developed and optimized. The GMA–EDMA and BuMA–EDMA matrixes were successfully applied for the separation of low molecular weight compounds (the mixture of several dies), as well as pol (vinylpyrrolidone) and polystyrene homopolymers of different molecular weights using reversed-phase mechanism. The materials based on copolymers AEMA-HEMA-EDMA and CEMA-HEMA-EDMA were used for normal-phase PLC separation of 2,4-dinitrophenyl amino acids and polystyrene standards.

S. H. Lubbad, M. R. Buchmeiser Ring-opening metathesis polymerization-derived monolithic anion exchangers Journal of Chromatography A, 1218 (2011) 2362-2367

Ring-opening metathesis polymerization- (ROMP) derived monoliths were prepared from 5-norborn-2-enemethyl bromide (NBE-CH2Br) and tris(5-norborn-2-enemethoxy)methylsilane ((NBE-CH2O)3SiCH3) within the confines of surface-silanized borosilicate columns (100×3mm I.D.), applying Grubbs' first generation benzylidene-type catalyst [RuCl2(PCy3)2(CHPh)]. Monoliths were converted into weak anion exchangers via reaction with diethyl amine. The resulting monolithic anion exchangers demonstrated a very good potential for the anion-exchange separation of nucleic acids applying a phosphate buffer (0.05 mol/L, pH 7) and NaCl (1.0 mol/L) as a gradient former. Fast and efficient separations, indicated by sharp and highly symmetric analyte peaks, were established. Except for the 267 and 298 base pair fragments, the eleven fragments of a ds-pUC18 DNA Hae III digest were baseline separated within 12 min. Nineteen fragments of a ds-pBR322 Hae III digest were separated within∼12 min. There, only the 192 and 213 base pair fragments and the 458, 504 and 540 base pair fragments coeluted. A ds-pUC18 DNA Hae III digest was used as a control analyte in evaluating the influence of organic additives on the mobile phase such as methanol and acetonitrile on nucleic acid separation. Methanol, and even better, acetonitrile improved the separation efficiency and shortened the analysis time.

H. Shirataki, C. Sudoh, T. Eshima, Y. Yokoyama, K. Okuyama Evaluation of an anion-exchange hollow-fiber membrane adsorber containing Journal of Chromatography A, 1218 (2011) 2381-2388

It is widely recognized that membrane adsorbers are powerful tools for the purification of biopharmaceutical protein products and for this reason a novel hollow-fiber AEX type membrane adsorber has been developed. The membrane is characterized by grafted chains including DEA ligands affixed to the pore surfaces of the membrane. In order to estimate the membrane performance, (1) dynamic binding capacities for pure BSA and DNA over a range of solution conductivity and pH, (2) virus reduction by flow-through process, and (3) HCP and DNA removal from cell culture, are evaluated and compared with several other anion-exchange membranes. The novel hollow-fiber membrane is tolerant of high salt concentration when adsorbing BSA and DNA. When challenged with a solution containing IgG the membrane has high impurity removal further indicating this hollow-fiber based membrane adsorber is an effective tool for purification of biopharmaceutical protein products including IgG.

S. Yamamoto, T. Okada, M. Abe, N. Yoshimoto Peak spreading in linear gradient elution chromatography with a thin Journal of Chromatography A, 1218 (2011) 2460-2466

The peak spreading of DNAs of various sizes [12-mer, 20-mer, 50-mer and 95-mer poly(T)] in linear gradient elution (LGE) chromatography with a thin monolithic disk was investigated by using our method developed for determining HETP in LGE. Electrostatic interaction-based chromatography mode (ionexchange chromatography, IEC) was used. Polymer-based monolithic disks of two different sizes (12 mm diameter, 3 mm thickness and 0.34 mL; 5.2mmdiameter, 4.95 mm thickness and 0.105 mL) having anion exchange groups were employed. For comparison, a 15-μm porous bead IEC column (Resource Q, 6.4 mm diameter, 30 mm height and 0.97 mL) was also used. The peak width did not change with the flow velocity for the monolithic disks where as it became wider with increasing velocity. For the monolithic disks the peak width normalized with the column bed volume was well-correlated with the distribution coefficient at the peak position KR. HETP values were constant (ca. 0.003–0.005 cm) when KR > 5. Much higher HETP values which are flow-rate dependent were obtained for the porous bead chromatography. It is possible to obtain 50–100 plates for the 3mm monolithic disk. This results in very sharp elution peaks (standard deviation/bed volume = 0.15) even for stepwise elution chromatography, where the peak width is similar to that for LGE of a very steep gradient slope.

Z. Jiang, N. W. Smith, Z. Liu Preparation and application of hydrophilic monolithic columns Journal of Chromatography A, 1218 (2011) 2350-2361

Hydrophilic interaction chromatography (HILIC) has experienced increasing attention in recent years. Much research has been carried out in the area of HILIC separation mechanisms, column techniques and applications. Because of their good permeability, low resistance to mass transfer and easy preparation within capillaries, hydrophilic monolithic columns represent a trend among novel HILIC column techniques. This review attempts to present an overview of the preparation and applications of HILIC monolithic columns carried out in the past decade. The separation mechanism of various hydrophilic monolithic stationary phases is also reviewed.

F. Smrekar, M. Ciringer, A. Strancar, A. Podgornik Characterisation of methacrylate monoliths for bacteriophage purification Journal of Chromatography A, 1218 (2011) 2438–2444

Binding of three different bacteriophages (phages), namely T7, lambda and M13 on methacrylate monoliths was investigated. Phage M13 exhibited the highest dynamic binding capacity of 4.5Ă—1013 pfu/mL while T7 and lambda showed capacity of 1Ă—1013 pfu/mL, all corresponding to values of around 1 mg/mL. Interestingly, capacity for lambda phagewasincreased 5-fold by increasing NaCl concentration in a loaded sample from 0 to 0.2Mwhile there was a constant capacity decrease for T7 and M13 phages. Under optimal conditions, recovery for all three phages approached 100%. Measurement of a pressure drop increase during loading enabled estimation of adsorbed phage layer thickness. At a maximal capacity it was calculated to be around 50nm for T7 phage and 60nm for lambda phage matching closely capside size thus indicating monolayer adsorption while 80nm layer thickness was estimated for M13 phage showing its orientation along the pore.

L. Urbas, B. Lah Jarc, M. Barut, M. Zochowska, J. Chroboczek Purification of recombinant adenovirus type 3 dodecahedric virus-like particles Journal of Chromatography A, 1218 (2011) 2451–2459

Adenovirus type 3 dodecahedric virus-like particles (Ad3 VLP) are an interesting delivery vector. They penetrate animal cells in culture very efficiently and up to 300,000 Ad3 VLP can be observed in one cell. The purification of such particles usually consists of several steps. In these work we describe the method development and optimization for the purification of Ad3 VLP using the Convective Interaction Media analytical columns (CIMac). Results obtained with the CIMac were compared to the already established two-step purification protocol for Ad3 VLP based on sucrose density gradient ultracentifugation and the Q-Sepharose ion-exchange column. Pure, concentrated and bioactive VLP were obtained and characterized by several analytical methods. The recovery of the Ad3 VLP was more than 50% and the purified fraction was almost completely depleted of DNA; less than 1% of DNA was present. The purification protocol was shortened from five days to one day and remarkably high penetration efficacy of the CIMac purified vector was retained. Additionally, CIMac QA analytical column has proven to be applicable for the final and in-process control of various Ad3 VLP samples.

L. Urbas, B. Kosir, M. Peterka, B. Pihlar, A. Strancar, M. Barut Reversed phase monolithic analytical columns for the determination of HA1 Journal of Chromatography A, 1218 (2011) 2432-2437

Monoliths are chromatographic stationary phases, which were specially designed for efficient purification of large biomolecules, like proteins, viruses and DNA. In this work, the small scale monolithic butyl (C4) and styrene-divinyl benzene (SDVB) columns were applied for reversed phase analyses of various degraded influenza viruses. The binding of the HA1 subunit of haemagglutinin to the monolithic columns was confirmed by sodium dodecyl sulphate-polyacrylamide gel electrophoresis (SDS-PAGE) and the Western blot. The working linear range was determined as 1.60Ă—1010 viral particles/mL to at least 1.64Ă—1011 viral particles/mL, the limit of detection was found to be 2.56Ă—109 virus particles/mL and the limit of quantification was 5.12Ă—109 virus particles/mL. The analytical HPLC method developed with the H1N1 virus was also applicable for the analytics of the HA1 subunit of H3N2 influenza virus and the influenza B virus.

N. Lendero Krajnc, F. Smrekar, A. Strancar, A. Podgornik Adsorption behavior of large plasmids on the anion-exchange methacrylate monolithic columns Journal of Chromatography A, 1218 (2011) 2413-2424

The objective of this study was to investigate the behavior of large plasmids on the monolithic columns under binding and nonbinding conditions. The pressure drop measurements under nonbinding conditions demonstrated that the flow velocities under which plasmid passing monolith became hindered by the monolithic pore structure depended on the plasmid size as well as on the average monolith pore size; however, they were all very high exceeding the values encountered when applying CIM monolithic columns at their maximal flow rate. The impact of the ligand density and the salt concentration in loading buffer on binding capacity of the monolith for different sized plasmids was examined. For all plasmids the increase of dynamic binding capacity with the increase of salt concentration in the loading solution was observed reaching maximum of 7.1 mg/mL at 0.4 M NaCl for 21 kbp, 12.0 mg/mL at 0.4 M NaCl for 39.4 kbp and 8.4 mg/mL at 0.5 M NaCl for 62.1 kbp. Analysis of the pressure drop data measured on the monolithic column during plasmid loading revealed different patterns of plasmid binding to the surface, showing “car-parking problem” phenomena under certain conditions. In addition, layer thickness of adsorbed plasmid was estimated and at maximal dynamic binding capacity it matched calculated plasmid radius of gyration. Finally, it was found that the adsorbed plasmid layer acts similarly as the grafted layer responding to changes in solution’s ionic strength as well as mobile phase flow rate and that the density of plasmid layer depends on the plasmid size and also loading conditions.

S. Neff, A. Jungbauer Monolith peptide affinity chromatography for quantification of immunoglobulin M Journal of Chromatography A, 1218 (2011) 2374-2380

We have developed a method for quantification of a specific monoclonal IgM directed toward embryonic stem cells based on a peptide affinity monolith. A peptide affinity ligand with the sequence C–C–H–Q–R–L–S–Q–R–K was obtained by epitope mapping using peptide SPOT synthesis. The peptide ligand was covalently immobilized by coupling the N-terminal cysteine to a monolithic disk that was previously modified with iodated spacer molecules. The monolithic disc was used for quantification of purified IgM and for IgM present in mammalian cell culture supernatant. We observed 17% unspecific binding of IgM to the monolithic disk and additionally a product loss in the flow through of 20%. Nevertheless, calibration curves had high correlation coefficients and inter/intra-assay variability experiments proved sufficient precision of the method. A limit of quantification of 51.69 ÎĽg/mL for purified IgM and 48.40 ÎĽg/mL for IgM in cell culture supernatant could be calculated. The binding capacity was consistent within the period of the study which included more than 200 cycles. The analysis time of less than 2 min is an advantage over existing chromatographic methods that rely on pore diffusion.

I. Pulko, V. Smrekar, A. Podgornik, P. Krajnc Emulsion templated open porous membranes for protein purification Journal of Chromatography A, 1218 (2011) 2396-2401

Approximately 25 cmĂ—25 cm large sheets of crosslinked highly porous poly(glycidyl methacrylate-coethyleneglycol dimethacrylate-co-ethylhexyl methacrylate) membranes with an average thicknesses between 285 and 565 ÎĽm were prepared by casting a high internal phase emulsion (HIPE) containing monomers onto glass substrates and subsequent polymerisation. Open cellular porous polyHIPE type membranes were obtained with large pores (cavity) sizes between 3 and 10 ÎĽm while interconnecting pores were between 1 and 3 ÎĽm. The percentage of ethylhexyl acrylate and ethyleneglycol dimethacrylate influenced the flexibility and morphology of the resulting membranes. Porous membranes were chemically modified with diethylamine to yield functionalised supports for ion exchange chromatography. Cylindrical housings were used for positioning of the membranes and allowing flow of the mobile phase. Pulse experiments were used to study the flow characteristics and a homogeneous flow through the entire area of the membrane was found. Bovine serum albumin was purified by a 8 ml column containing functional membrane in modular shape; dynamic binding capacity was measured to be as high as 45 mg/ml.

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