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Heparan sulfate proteoglycans as trastuzumab targets in anoikis-resistant endothelial cells. , Onyeisi JOS, Castanho de Almeida Pernambuco Filho P, de Araujo Lopes S, Nader HB, Lopes CC., J Cell Biochem. August 1, 2019; 120 (8): 13826-13840.
Coupling of vinculin to F- actin demands Syndecan-4 proteoglycan. , Cavalheiro RP, Lima MA, Jarrouge-Bouças TR, Viana GM, Lopes CC, Coulson-Thomas VJ, Dreyfuss JL, Yates EA, Tersariol ILS, Nader HB., Matrix Biol. November 1, 2017; 63 23-37.
Polysaccharide Constituents of Three Types of Sea Urchin Shells and Their Anti-Inflammatory Activities. , Jiao H, Shang X, Dong Q, Wang S, Liu X, Zheng H, Lu X., Mar Drugs. September 16, 2015; 13 (9): 5882-900.
Acquisition of anoikis resistance up-regulates syndecan-4 expression in endothelial cells. , Carneiro BR, Pernambuco Filho PC, Mesquita AP, da Silva DS, Pinhal MA, Nader HB, Lopes CC., PLoS One. December 1, 2014; 9 (12): e116001.
Brittlestars contain highly sulfated chondroitin sulfates/dermatan sulfates that promote fibroblast growth factor 2-induced cell signaling. , Ramachandra R, Namburi RB, Ortega-Martinez O, Shi X, Zaia J, Dupont ST, Thorndyke MC, Lindahl U, Spillmann D., Glycobiology. February 1, 2014; 24 (2): 195-207.
Probing the interaction between heparan sulfate proteoglycan with biologically relevant molecules in mimetic models for cell membranes: a Langmuir film study. , Caseli L , Cavalheiro RP, Nader HB, Lopes CC., Biochim Biophys Acta. May 1, 2012; 1818 (5): 1211-7.
HpSulf, a heparan sulfate 6-O-endosulfatase, is involved in the regulation of VEGF signaling during sea urchin development. , Fujita K, Takechi E, Sakamoto N , Sumiyoshi N, Izumi S, Miyamoto T, Matsuura S, Tsurugaya T, Akasaka K , Yamamoto T ., Mech Dev. April 1, 2010; 127 (3-4): 235-45.
PDGF-A interactions with fibronectin reveal a critical role for heparan sulfate in directed cell migration during Xenopus gastrulation. , Smith EM, Mitsi M, Nugent MA, Symes K., Proc Natl Acad Sci U S A. December 22, 2009; 106 (51): 21683-8.
Cell-surface arylsulfatase A and B on sinusoidal endothelial cells, hepatocytes, and Kupffer cells in mammalian livers. , Mitsunaga-Nakatsubo K, Kusunoki S, Kawakami H, Akasaka K , Akimoto Y., Med Mol Morphol. June 1, 2009; 42 (2): 63-9.
The specificity of interactions between proteins and sulfated polysaccharides. , Mulloy B., An Acad Bras Cienc. December 1, 2005; 77 (4): 651-64.
D-galactose-specific sea urchin lectin sugar-specifically inhibited histamine release induced by datura stramonium agglutinin: differences between sugar-specific effects of sea urchin lectin and those of D-galactose- or L-fucose-specific plant lectins. , Suzuki-Nishimura T, Nakagawa H, Uchida MK., Jpn J Pharmacol. April 1, 2001; 85 (4): 443-52.
A putative role for carbohydrates in sea urchin gastrulation. , Latham VH, Tully MJ, Oppenheimer SB., Acta Histochem. July 1, 1999; 101 (3): 293-303.
Adhesive and growth properties of lectin from the ascidian Didemnum ternatanum on cultivated marine invertebrate cells. , Odintsova NA, Belogortseva NI, Ermak AV, Molchanova VI, Luk'yanov PA., Biochim Biophys Acta. January 11, 1999; 1448 (3): 381-9.
An ECM-bound, PDGF-like growth factor and a TGF- alpha-like growth factor are required for gastrulation and spiculogenesis in the Lytechinus embryo. , Govindarajan V, Ramachandran RK, George JM, Shakes DC, Tomlinson CR., Dev Biol. December 1, 1995; 172 (2): 541-51.
The SEA module: a new extracellular domain associated with O-glycosylation. , Bork P, Patthy L., Protein Sci. July 1, 1995; 4 (7): 1421-5.
Sulfated polysaccharides and cell differentiation in the sea urchin embryo. , Løvtrup-Rein H, Løvtrup S., Exp Cell Biol. January 1, 1984; 52 (6): 383-8.