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Marion Kusche Gullbergs bilde

Marion Kusche Gullberg

Professor
  • E-postMarion.Kusche@uib.no
  • Telefon+47 55 58 66 90
  • Besøksadresse
    Jonas Lies vei 91
    5009 Bergen
  • Postadresse
    Postboks 7804
    5020 Bergen
Vitenskapelig artikkel
  • Vis forfatter(e) (2022). Heparan sulfate dependent binding of plasmatic von Willebrand factor to blood circulating melanoma cells attenuates metastasis. Matrix Biology. 76-94.
  • Vis forfatter(e) (2022). A dominant negative splice variant of the heparan sulfate biosynthesis enzyme NDST1 reduces heparan sulfate sulfation. Glycobiology. 518-528.
  • Vis forfatter(e) (2019). Heparan sulfate in chronic kidney diseases: Exploring the role of 3-O-sulfation. Biochimica et Biophysica Acta - General Subjects. 839-848.
  • Vis forfatter(e) (2018). The exostosin family of glycosyltransferases: mRNA expression profiles and heparan sulphate structure in human breast carcinoma cell lines. Bioscience Reports. 1-12.
  • Vis forfatter(e) (2018). Potential role for Ext1-dependent heparan sulfate in regulating P311 gene expression in A549 carcinoma cells. Biochimica et Biophysica Acta - General Subjects. 1472-1481.
  • Vis forfatter(e) (2018). Endothelial heparan sulfate deficiency reduces inflammation and fibrosis in murine diabetic nephropathy. Laboratory Investigation. 427-438.
  • Vis forfatter(e) (2015). Reduced expression of EXTL2, a member of the exostosin (EXT) family of glycosyltransferases, in human embryonic kidney 293 cells results in longer heparan sulfate chains. Journal of Biological Chemistry. 13168-13177.
  • Vis forfatter(e) (2014). Role of 6-O-sulfated heparan sulfate in chronic renal fibrosis. Journal of Biological Chemistry. 20295-20306.
  • Vis forfatter(e) (2014). Fibroblast α11β1 integrin regulates tensional homeostasis in fibroblast/A549 carcinoma heterospheroids. PLOS ONE.
  • Vis forfatter(e) (2012). Heparan sulfate expression is affected by inflammatory stimuli in primary human endothelial cells. Glycoconjugate Journal. 67-76.
  • Vis forfatter(e) (2012). Fibroblast EXT1-levels influence tumor cell proliferation and migration in composite spheroids. PLOS ONE. 10 sider.
  • Vis forfatter(e) (2012). Drosophila heparan sulfate, a novel design. Journal of Biological Chemistry. 21950-21956.
  • Vis forfatter(e) (2010). Target selection of heparan sulfate hexuronic acid 2-O-sulfotransferase. Glycobiology. 1274-1282.
  • Vis forfatter(e) (2009). Mutation in the heparan sulfate biosynthesis enzyme EXT1 influences growth factor signaling and fibroblast interactions with the extracellular matrix. Journal of Biological Chemistry. 34935-34943.
  • Vis forfatter(e) (2009). Molecular analysis of heparan sulfate biosynthetic enzyme machinery and characterization of heparan sulfate structure in Nematostella vectensis. Biochemical Journal. 585-593.
  • Vis forfatter(e) (2008). Heparan sulfate biosynthesis enzymes EXT1 and EXT2 affect NDST1 expression and heparan sulfate sulfation. Proceedings of the National Academy of Sciences of the United States of America. 4751-4756.
  • Vis forfatter(e) (2007). Syndecans promote integrin-mediated adhesion of mesenchymal cells in two distinct pathways. Experimental Cell Research. 3902-3913.
  • Vis forfatter(e) (2007). Sulfs are regulators of growth factor signaling for satellite cell differentiation and muscle regeneration. Developmental Biology. 464-477.
  • Vis forfatter(e) (2007). SULF1 and SULF2 regulate heparan sulfate-mediated GDNF signaling for esophageal innervation. Development. 3327-3338.
  • Vis forfatter(e) (2007). Contribution of EXT1, EXT2, and EXTL3 to heparan sulfate chain elongation. Journal of Biological Chemistry. 32802-32810.
  • Vis forfatter(e) (2006). Substrate specificity and domain functions of extracellular heparan sulfate 6-O-endosulfatases, QSulf1 and QSulf2. Journal of Biological Chemistry. 4969-4976.
  • Vis forfatter(e) (2006). Overexpression of heparan sulfate 6-O-sulfotransferases in human embryonic kidney 293 cells results in increased N-acetylglucosaminyl 6-O-sulfation. Journal of Biological Chemistry. 5348-5356.
  • Vis forfatter(e) (2006). Enzymatically active N-deacetylase/N-sulfotransferase-2 is present in liver but does not contribute to heparan sulfate N-sulfation. Journal of Biological Chemistry. 35727-35734.
  • Vis forfatter(e) (2004). Purification of a 75 kDa protein-N-acetylglucosamine-6-sulphatase from the organelle matrix of human neutrophils. Biochemical Journal.
  • Vis forfatter(e) (2004). Heparan sulfate synthesized by mouse embryonic stem cells deficient in NDST1 and NDST2 is 6-O-sulfated but contains no N-sulfate groups. Journal of Biological Chemistry. 42355-42358.
  • Vis forfatter(e) (2004). Embryonic fibroblasts with a gene trap mutation in Ext1 produce short heparan sulfate chains. Journal of Biological Chemistry. 32134-32141.
  • Vis forfatter(e) (2004). Biosynthesis of hyaluronan: Direction of chain elongation. Journal of Biological Chemistry.
Mastergradsoppgave
  • Vis forfatter(e) (2021). The elusive functions of EXT1 and EXT2.
  • Vis forfatter(e) (2012). Molecular mechanisms of integrin alpha 11.
  • Vis forfatter(e) (2011). Heparan sulfate proteoglycans: effects of NDST1 deficiency on fibroblast function.
Doktorgradsavhandling
  • Vis forfatter(e) (2018). EXT proteins: Role in heparan sulfate Assembly and in Tumor biology.
  • Vis forfatter(e) (2011). The Roles of EXT-Like Proteins in Heparan Sulphate Biosynthesis.
Vitenskapelig Kapittel/Artikkel/Konferanseartikkel
  • Vis forfatter(e) (2017). Role of the Extracellular Matrix in Tumor Stroma: Barrier or Support? 36 sider.
  • Vis forfatter(e) (2016). Chapter Six – Heparan Sulfate: Biosynthesis, Structure, and Function. 59 sider.
Vitenskapelig oversiktsartikkel/review
  • Vis forfatter(e) (2023). Novel roles for cooperating collagen receptor families in fibrotic niches. Current Opinion in Cell Biology.
  • Vis forfatter(e) (2022). Integrin α11β1 in tumor fibrosis: more than just another cancer-associated fibroblast biomarker? Journal of cell communication and signaling. 649-660.
  • Vis forfatter(e) (2014). The exostosin family: Proteins with many functions. Matrix Biology. 25-33.

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