His primary areas of investigation include Receptor, Biochemistry, LDL receptor, Molecular biology and Urokinase receptor. Receptor is closely attributed to Plasminogen activator in his study. Biochemistry is closely attributed to Cell biology in his research.
He works mostly in the field of LDL receptor, limiting it down to topics relating to alpha-2-Macroglobulin and, in certain cases, Protein subunit and Dissociation constant, as a part of the same area of interest. His Urokinase receptor research integrates issues from Immunoelectron microscopy, T lymphocyte, Antigen and Internalization. In Ligand, Jørgen Gliemann works on issues like Lipoprotein lipase, which are connected to Chinese hamster ovary cell and Very low-density lipoprotein.
His scientific interests lie mostly in Biochemistry, Receptor, Molecular biology, LDL receptor and Endocrinology. His Biochemistry study frequently links to other fields, such as Cell biology. Jørgen Gliemann has included themes like Plasminogen activator, Macroglobulin and Cleavage in his Receptor study.
His study in Molecular biology is interdisciplinary in nature, drawing from both Amino acid, Recombinant DNA, LDL-receptor-related protein-associated protein, Complementary DNA and Intracellular. His work on α2 macroglobulin receptor and Low-density lipoprotein receptor gene family as part of general LDL receptor research is frequently linked to Low-density lipoprotein and Apolipoprotein E, thereby connecting diverse disciplines of science. His Endocrinology research focuses on Internal medicine and how it connects with HEPES and Potency.
Jørgen Gliemann mostly deals with Receptor, Biochemistry, Cell biology, LDL receptor and Molecular biology. His biological study spans a wide range of topics, including Cleavage, Furin and Protein precursor. His work in Biochemistry covers topics such as LRP1 which are related to areas like Plasminogen activator.
When carried out as part of a general Cell biology research project, his work on Transport protein, Cytoplasm and Plasma protein binding is frequently linked to work in GGA1, therefore connecting diverse disciplines of study. His work on Low-density lipoprotein receptor gene family as part of general LDL receptor research is often related to Apolipoprotein E, thus linking different fields of science. Jørgen Gliemann interconnects Amino acid, Conserved sequence, Sequence alignment and Complementary DNA in the investigation of issues within Molecular biology.
Jørgen Gliemann spends much of his time researching Receptor, Biochemistry, Endocytosis, Cell biology and Ligand. His Receptor study frequently draws parallels with other fields, such as LDL receptor. His LDL receptor research is multidisciplinary, incorporating perspectives in N-terminus, Endoplasmic reticulum and Casein kinase 1.
His study in Furin, Endosome, Golgi apparatus and Affinity chromatography are all subfields of Biochemistry. The Endocytosis study combines topics in areas such as Molecular biology and Phospholipase C. His Ligand research includes elements of Lipoprotein lipase, Chinese hamster ovary cell and Phosphorylation.
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Neuronal sorting protein-related receptor sorLA/LR11 regulates processing of the amyloid precursor protein.
Olav M. Andersen;Juliane Reiche;Vanessa Schmidt;Michael Gotthardt.
Proceedings of the National Academy of Sciences of the United States of America (2005)
The sortilin cytoplasmic tail conveys Golgi–endosome transport and binds the VHS domain of the GGA2 sorting protein
Morten S. Nielsen;Peder Madsen;Erik I. Christensen;Anders Nykjær.
The EMBO Journal (2001)
Distribution of the alpha 2-macroglobulin receptor/low density lipoprotein receptor-related protein in human tissues.
Søren K. Moestrup;Jørgen Gliemann;Gorm Pallesen.
Cell and Tissue Research (1992)
MOLECULAR IDENTIFICATION OF A NOVEL CANDIDATE SORTING RECEPTOR PURIFIED FROM HUMAN BRAIN BY RECEPTOR-ASSOCIATED PROTEIN AFFINITY CHROMATOGRAPHY
Claus M. Petersen;Morten S. Nielsen;Anders Nykjær;Linda Jacobsen.
Journal of Biological Chemistry (1997)
Recycling of the urokinase receptor upon internalization of the uPA:serpin complexes.
Anders Nykjær;Massimo Conese;Erik I. Christensen;David Olson.
The EMBO Journal (1997)
α-Synuclein Binds to Tau and Stimulates the Protein Kinase A-catalyzed Tau Phosphorylation of Serine Residues 262 and 356
Poul Henning Jensen;Henrik Hager;Morten S. Nielsen;Peter Højrup.
Journal of Biological Chemistry (1999)
Evidence that the newly cloned low-density-lipoprotein receptor related protein (LRP) is the α2-macroglobulin receptor
Torsten Kristensen;Søren K. Moestrup;Jørgen Gliemann;Lone Bendtsen.
FEBS Letters (1990)
Evidence that epithelial glycoprotein 330/megalin mediates uptake of polybasic drugs.
S. K. Moestrup;Shiying Cui;H. Vorum;C. Bregengard.
Journal of Clinical Investigation (1995)
Cubilin dysfunction causes abnormal metabolism of the steroid hormone 25(OH) vitamin D(3).
Anders Nykjaer;John C. Fyfe;Renata Kozyraki;Jörg Robert Leheste.
Proceedings of the National Academy of Sciences of the United States of America (2001)
Molecular Characterization of a Novel Human Hybrid-type Receptor That Binds the α2-Macroglobulin Receptor-associated Protein
Linda Jacobsen;Peder Madsen;Søren K. Moestrup;Anders H. Lund.
Journal of Biological Chemistry (1996)
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