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micro bio spin chromatography columns  (Bio-Rad)


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    Bio-Rad micro bio spin chromatography columns
    Micro Bio Spin Chromatography Columns, supplied by Bio-Rad, used in various techniques. Bioz Stars score: 99/100, based on 555 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
    https://www.bioz.com/result/micro bio spin chromatography columns/product/Bio-Rad
    Average 99 stars, based on 555 article reviews
    micro bio spin chromatography columns - by Bioz Stars, 2026-05
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    Image Search Results


    Purification of circRNAs and extending the RNA ligase 2 (RL2)-dependent circularization method to other RNAs. ( A ) CircRNAs synthesized with RNA ligase 2 using DNA splint were purified using three different approaches: from 3% urea–PAGE using crush and soak method, or from EX E-gels either using the crush and soak method or using column-based kit. As a control, linear RNAs were also extracted using the same methods. CircRNAs extracted from 3% urea–PAGE or EX E-gel using a crush and soak method had more intact circRNAs with less nicking compared to those extracted from EX E-gel using column-based kits. Linear RNAs on the other hand remained intact with each of the approaches. ( B ) Schematic of RNase-H based circularity confirmation assay that uses a short ssDNA probe which cleaves intact circRNAs into a single linear band, while nicked circRNAs or linear RNAs are cut into two shorter bands. ( C ) RNase-H based assay confirmed circularity of EGFP-IRES circRNAs. Linear RNAs were cleaved into two shorter bands of expected sizes while circRNAs derived from modified DNA templates were linearized to the size of full-length linear precursor. ( D, E ) 5′-monophosphate linear precursors of human immunodeficiency virus (HIV) and mCherry were ligated using RNA ligase 2 and respective DNA splints. For circHIV, urea–PAGE purification of circRNAs derived from modified templates had the highest yields with the least contaminating RNAs. Yields of mCherry circRNAs were much higher with polyA + RNase R approach on RNAs from modified template ligated using RNA ligase 2, however urea–PAGE showed higher and lower sized undesired RNAs. Representative data are from a mean of n = 3 technical replicates with SEM. ( F ) Sanger sequencing confirmed accuracy of circRNAs. Clean chromatograms were observed for ligation junctions of both HlV and mCherry circRNAs derived from modified DNA templates purified either through poly(A) tailing and RNase R treatment or from urea–PAGE purification.

    Journal: Nucleic Acids Research

    Article Title: Generation of precise and accurate engineered circRNAs using enzymatic ligation

    doi: 10.1093/nar/gkag405

    Figure Lengend Snippet: Purification of circRNAs and extending the RNA ligase 2 (RL2)-dependent circularization method to other RNAs. ( A ) CircRNAs synthesized with RNA ligase 2 using DNA splint were purified using three different approaches: from 3% urea–PAGE using crush and soak method, or from EX E-gels either using the crush and soak method or using column-based kit. As a control, linear RNAs were also extracted using the same methods. CircRNAs extracted from 3% urea–PAGE or EX E-gel using a crush and soak method had more intact circRNAs with less nicking compared to those extracted from EX E-gel using column-based kits. Linear RNAs on the other hand remained intact with each of the approaches. ( B ) Schematic of RNase-H based circularity confirmation assay that uses a short ssDNA probe which cleaves intact circRNAs into a single linear band, while nicked circRNAs or linear RNAs are cut into two shorter bands. ( C ) RNase-H based assay confirmed circularity of EGFP-IRES circRNAs. Linear RNAs were cleaved into two shorter bands of expected sizes while circRNAs derived from modified DNA templates were linearized to the size of full-length linear precursor. ( D, E ) 5′-monophosphate linear precursors of human immunodeficiency virus (HIV) and mCherry were ligated using RNA ligase 2 and respective DNA splints. For circHIV, urea–PAGE purification of circRNAs derived from modified templates had the highest yields with the least contaminating RNAs. Yields of mCherry circRNAs were much higher with polyA + RNase R approach on RNAs from modified template ligated using RNA ligase 2, however urea–PAGE showed higher and lower sized undesired RNAs. Representative data are from a mean of n = 3 technical replicates with SEM. ( F ) Sanger sequencing confirmed accuracy of circRNAs. Clean chromatograms were observed for ligation junctions of both HlV and mCherry circRNAs derived from modified DNA templates purified either through poly(A) tailing and RNase R treatment or from urea–PAGE purification.

    Article Snippet: The final reactions from all the approaches were purified using RNA cleanup columns (NEB #T2030L).

    Techniques: Purification, Synthesized, Control, Rnase H Assay, Derivative Assay, Modification, Virus, Sequencing, Ligation