sepharose and diminazene-aceturate

sepharose has been researched along with diminazene-aceturate* in 2 studies

Other Studies

2 other study(ies) available for sepharose and diminazene-aceturate

Article	Year
Negative pseudo-affinity chromatography for plasmid DNA purification using berenil as ligand. Journal of chromatography. B, Analytical technologies in the biomedical and life sciences, 2014, Jan-01, Volume: 944 The present study, reports the utilization of berenil as ligand in a negative pseudo-affinity chromatographic step to purify the plasmid pVAX1-LacZ from Escherichia coli clarified lysates. The chromatographic support was prepared by coupling berenil to epoxy-activated Sepharose and was qualitatively and quantitatively characterized using scanning electron microscopy, Fourier transformed infrared spectroscopy and elemental analysis. The clarified lysate was loaded onto the berenil-Sepharose support with 0.55M of ammonium sulphate in the eluent, achieving the immediate elution of plasmid DNA. The impurities tightly bound to the support, were eluted after decreasing the salt concentration to 0M. The overall process enabled the recovery of 87% of loaded plasmid DNA with a HPLC purity of ≫99% and according to FDA specifications. This method represents an alternative approach to the previous utilization of the same chromatographic pseudo-affinity support in a positive mode. It uses lower amounts of salt and one-step chromatographic procedure, resulting in smaller operating time and costs and representing an alternate procedure for plasmid DNA purification. Topics: Chromatography, Affinity; Diminazene; DNA, Circular; Particle Size; Plasmids; Sepharose	2014
Specific berenil-DNA interactions: an approach for separation of plasmid isoforms by pseudo-affinity chromatography. Analytical biochemistry, 2011, May-15, Volume: 412, Issue:2 Small molecules, like some antibiotics and anticancer agents that bind DNA with high specificity, can represent a relevant alternative as ligands in affinity processes for plasmid DNA (pDNA) purification. In the current study, pDNA binding affinities of berberine, berenil, kanamycin, and neomycin were evaluated by a competitive displacement assay with ethidium bromide using a fluorimetric titration technique. The binding between pDNA and ethidium bromide was tested in different buffer conditions, varying the type and the salt concentration, and was performed in both the absence and presence of the studied compounds. The results showed that the minor groove binder berenil has the higher pDNA binding constant. Chromatographic experiments using a derivatized column with berenil as ligand showed a total retention of pDNA using 1.3M ammonium sulfate in eluent buffer. A selective separation of supercoiled and open circular isoforms was achieved by further decreasing the salt concentration to 0.6M and then to 0M. These results suggest a promising application of berenil as ligand for specific purification of pDNA supercoiled isoform by pseudo-affinity chromatography. Topics: Ammonium Sulfate; Chromatography, Affinity; Diminazene; DNA; Kinetics; Ligands; Plasmids; Sepharose; Sodium Chloride	2011

Article

Year

Negative pseudo-affinity chromatography for plasmid DNA purification using berenil as ligand.

Journal of chromatography. B, Analytical technologies in the biomedical and life sciences, 2014, Jan-01, Volume: 944

The present study, reports the utilization of berenil as ligand in a negative pseudo-affinity chromatographic step to purify the plasmid pVAX1-LacZ from Escherichia coli clarified lysates. The chromatographic support was prepared by coupling berenil to epoxy-activated Sepharose and was qualitatively and quantitatively characterized using scanning electron microscopy, Fourier transformed infrared spectroscopy and elemental analysis. The clarified lysate was loaded onto the berenil-Sepharose support with 0.55M of ammonium sulphate in the eluent, achieving the immediate elution of plasmid DNA. The impurities tightly bound to the support, were eluted after decreasing the salt concentration to 0M. The overall process enabled the recovery of 87% of loaded plasmid DNA with a HPLC purity of ≫99% and according to FDA specifications. This method represents an alternative approach to the previous utilization of the same chromatographic pseudo-affinity support in a positive mode. It uses lower amounts of salt and one-step chromatographic procedure, resulting in smaller operating time and costs and representing an alternate procedure for plasmid DNA purification.

Topics: Chromatography, Affinity; Diminazene; DNA, Circular; Particle Size; Plasmids; Sepharose

2014

Specific berenil-DNA interactions: an approach for separation of plasmid isoforms by pseudo-affinity chromatography.

Analytical biochemistry, 2011, May-15, Volume: 412, Issue:2

Small molecules, like some antibiotics and anticancer agents that bind DNA with high specificity, can represent a relevant alternative as ligands in affinity processes for plasmid DNA (pDNA) purification. In the current study, pDNA binding affinities of berberine, berenil, kanamycin, and neomycin were evaluated by a competitive displacement assay with ethidium bromide using a fluorimetric titration technique. The binding between pDNA and ethidium bromide was tested in different buffer conditions, varying the type and the salt concentration, and was performed in both the absence and presence of the studied compounds. The results showed that the minor groove binder berenil has the higher pDNA binding constant. Chromatographic experiments using a derivatized column with berenil as ligand showed a total retention of pDNA using 1.3M ammonium sulfate in eluent buffer. A selective separation of supercoiled and open circular isoforms was achieved by further decreasing the salt concentration to 0.6M and then to 0M. These results suggest a promising application of berenil as ligand for specific purification of pDNA supercoiled isoform by pseudo-affinity chromatography.

Topics: Ammonium Sulfate; Chromatography, Affinity; Diminazene; DNA; Kinetics; Ligands; Plasmids; Sepharose; Sodium Chloride

2011