Her primary areas of investigation include Antibody, Monoclonal antibody, Epitope, Virology and Biochemistry. Her studies deal with areas such as Molecular biology, Mutagenesis and Stereochemistry as well as Antibody. Her Molecular biology study combines topics from a wide range of disciplines, such as Immunoglobulin light chain and Neutralizing antibody.
Renate Kunert has included themes like Cell culture, Cell biology and Antigen, Polyclonal antibodies in her Monoclonal antibody study. Renate Kunert studies Gp41 which is a part of Epitope. Her Virology course of study focuses on Complement system and Isotype, Immunoglobulin M, Avidity and Immunoglobulin A.
Renate Kunert spends much of her time researching Antibody, Chinese hamster ovary cell, Monoclonal antibody, Molecular biology and Recombinant DNA. Her Antibody research is multidisciplinary, incorporating perspectives in Antigen and Virology. Her Chinese hamster ovary cell research includes themes of Gene, Bacterial artificial chromosome and Cell biology.
The Monoclonal antibody study combines topics in areas such as Epitope and In vitro. Her Epitope study integrates concerns from other disciplines, such as Immune system and Peptide. Renate Kunert interconnects Secretion, Plasmid and Glycoprotein in the investigation of issues within Recombinant DNA.
Her main research concerns Monoclonal antibody, Chinese hamster ovary cell, Cell culture, Recombinant DNA and Antibody. Renate Kunert works in the field of Monoclonal antibody, focusing on Cdr grafting in particular. The various areas that Renate Kunert examines in her Chinese hamster ovary cell study include Env Glycoproteins, Heterologous expression and Virology.
The concepts of her Cell culture study are interwoven with issues in Yield, Cell, Bioprocess, Yeast and Cell biology. She has researched Recombinant DNA in several fields, including Luciferase, TLR2 and Glycosylation. Her research in Antibody intersects with topics in HEK 293 cells, Molecular biology and Molecular recognition.
Her primary scientific interests are in Chinese hamster ovary cell, Cell culture, Monoclonal antibody, Biochemistry and Recombinant DNA. Her Chinese hamster ovary cell research focuses on Cell and how it connects with Gene expression, Metabolic pathway and Metabolism. The subject of her Monoclonal antibody research is within the realm of Antibody.
Her biological study spans a wide range of topics, including Protein expression, Computational biology and Binding site. Her research in Biochemistry tackles topics such as Bioprocess which are related to areas like Protein quality, Cell growth, Ammonium and Food science. Her Recombinant DNA research incorporates elements of Luciferase, Molecular biology, TLR2 and Cell biology.
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Cardiolipin Polyspecific Autoreactivity in Two Broadly Neutralizing HIV-1 Antibodies
Barton F. Haynes;Judith Fleming;E. William St. Clair;Herman Katinger.
Antibody Domain Exchange Is an Immunological Solution to Carbohydrate Cluster Recognition
Daniel A. Calarese;Christopher N. Scanlan;Michael B. Zwick;Songpon Deechongkit.
Comprehensive Cross-Clade Neutralization Analysis of a Panel of Anti-Human Immunodeficiency Virus Type 1 Monoclonal Antibodies
James M. Binley;Terri Wrin;Bette Korber;Michael B. Zwick.
Journal of Virology (2004)
A potent cross-clade neutralizing human monoclonal antibody against a novel epitope on gp41 of human immunodeficiency virus type 1.
Gabriela Stiegler;Renate Kunert;Martin Purtscher;Susanne Wolbank.
AIDS Research and Human Retroviruses (2001)
Broadly Neutralizing Anti-HIV Antibody 4E10 Recognizes a Helical Conformation of a Highly Conserved Fusion-Associated Motif in gp41
Rosa M.F. Cardoso;Michael B. Zwick;Robyn L. Stanfield;Renate Kunert.
Anti-Human Immunodeficiency Virus Type 1 (HIV-1) Antibodies 2F5 and 4E10 Require Surprisingly Few Crucial Residues in the Membrane-Proximal External Region of Glycoprotein gp41 To Neutralize HIV-1
Michael B. Zwick;Richard Jensen;Sarah Church;Meng Wang.
Journal of Virology (2005)
Analysis of immunoglobulin glycosylation by LC-ESI-MS of glycopeptides and oligosaccharides.
Johannes Stadlmann;Martin Pabst;Daniel Kolarich;Daniel Kolarich;Renate Kunert.
Process parameter shifting: Part I. Effect of DOT, pH, and temperature on the performance of Epo-Fc expressing CHO cells cultivated in controlled batch bioreactors.
Evelyn Trummer;Katharina Fauland;Silke Seidinger;Kornelia Schriebl.
Biotechnology and Bioengineering (2006)
Advances in recombinant antibody manufacturing
Renate Kunert;David Reinhart.
Applied Microbiology and Biotechnology (2016)
Production of a monoclonal antibody in plants with a humanized N-glycosylation pattern
Matthias Schähs;Richard Strasser;Johannes Stadlmann;Renate Kunert.
Plant Biotechnology Journal (2007)
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