A. Kulangara scite author profile

Chromatin folding determines the accessibility of DNA constituting eukaryotic genomes and consequently is profoundly important in the mechanisms of nuclear processes such as gene regulation. Nucleosome arrays compact to form a 30-nanometer chromatin fiber of hitherto disputed structure. Two competing classes of models have been proposed in which nucleosomes are either arranged linearly in a one-start higher order helix or zigzag back and forth in a two-start helix. We analyzed compacted nucleosome arrays stabilized by introduction of disulfide cross-links and show that the chromatin fiber comprises two stacks of nucleosomes in accord with the two-start model.

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Transient gene expression: Recombinant protein production with suspension‐adapted HEK293‐EBNA cells

Meissner

Pick

Kulangara

et al. 2001

Biotech & Bioengineering

186

131

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Transient gene expression (TGE) in mammalian cells at the reactor scale is becoming increasingly important for the rapid production of recombinant proteins. We improved a process for transient calcium phosphate-based transfection of HEK293-EBNA cells in a 1-3 L bioreactor volume. Cells were adapted to suspension culture using a commercially available medium (BioWhittaker, Walkersville, MD). Process parameters were optimized using a plasmid reporter vector encoding the enhanced green fluorescent protein (EGFP/CLONTECH, Palo Alto, CA, USA). Using GFP as a marker-protein, we observed by microscopic examination transfection efficiencies between 70-100%. Three different recombinant proteins were synthesized within a timeframe of 7 days from time of transfection to harvest. The first, a human recombinant IgG(1)-type antibody, was secreted into the supernatant of the cell culture and achieved a final concentration of >20 mg/L. An E. coli-derived DNA-binding protein remained intracellular, as expected, but accumulated to such a concentration that the lysate of cells, taken up into the entire culture volume, gave a concentration of 18 mg/L. The third protein, a transmembrane receptor, was expressed at 3-6 x 10(6) molecules/cell.

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Process Development for Transient Gene Expression in Mammalian Cells at The 3 L Scale: 10–50 MG of R-Protein in Days

Meissner

Girard

Kulangara

et al.

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The SPP Biotech Module 1: Proteins for Medical Applications a Multidisciplinary Effort for the Development of a Recombinant Anti-RhD Antibody Preparation of Hemolytic Disease of the Newborn

Amstutz¹,

Miescher²,

Moudry³

et al. 1999

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A. Kulangara

Nucleosome Arrays Reveal the Two-Start Organization of the Chromatin Fiber

Transient gene expression: Recombinant protein production with suspension‐adapted HEK293‐EBNA cells

Process Development for Transient Gene Expression in Mammalian Cells at The 3 L Scale: 10–50 MG of R-Protein in Days

The SPP Biotech Module 1: Proteins for Medical Applications a Multidisciplinary Effort for the Development of a Recombinant Anti-RhD Antibody Preparation of Hemolytic Disease of the Newborn

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