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GlyCosmos PubAnnotations

Recent publication annotations of glycans, cell types, and proteins, from PubAnnotation.

Displaying entries **15301 - 15325** of **24862** in total

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Title ▼	Authors	PubMed ID	Source	Publication Year
Heparin and its derivatives bind to HIV-1 recombinant envelope glycoproteins, rather than to recombinant HIV-1 receptor, CD4.	Harrop HA Rider CC	9451022	Glycobiology	1998
Heparin and ionic strength-dependent conversion of antithrombin III from an inhibitor to a substrate of alpha-thrombin.	Olson ST	4019506	J Biol Chem	1985
Heparin and heparan sulfate disaccharides bind to the exchanger inhibitor peptide region of Na+/Ca2+ exchanger and reduce the cytosolic calcium of smooth muscle cell lines. Requirement of C4-C5 unsaturation and 1--> 4 glycosidic linkage for activity.	Shinjo SK Tersariol IL Oliveira V Nakaie CR Oshiro ME Ferreira AT Santos IA Dietrich CP Nader HB	12374809	J Biol Chem	2002
Heparin and heparan sulfate bind to snake cardiotoxin. Sulfated oligosaccharides as a potential target for cardiotoxin action.	Patel HV Vyas AA Vyas KA Liu YS Chiang CM Chi LM Wu Wg	8999818	J Biol Chem	1997
Heparin and calreticulin interact on the surface of early G0/G1 dividing rat mesangial cells to regulate hyperglycemic glucose-induced responses.	Wang AJ Ren J Wang A Hascall VC	36858200	J Biol Chem	2023
Heparin amplifies platelet-derived growth factor (PDGF)- BB-induced PDGF alpha -receptor but not PDGF beta -receptor tyrosine phosphorylation in heparan sulfate-deficient cells. Effects on signal transduction and biological responses.	Rolny C Spillmann D Lindahl U Claesson-Welsh L	11912193	J Biol Chem	2002
Heparin affin regulatory peptide/pleiotrophin mediates fibroblast growth factor 2 stimulatory effects on human prostate cancer cells.	Hatziapostolou M Polytarchou C Katsoris P Courty J Papadimitriou E	16940294	J Biol Chem	2006
Heparin affects cytosolic glucose responses of hyperglycemic dividing mesangial cells.	Wang AJ Ren J Abbadi A Wang A Hascall VC	30723159	J Biol Chem	2019
Heparin activation of protein Z-dependent protease inhibitor (ZPI) allosterically blocks protein Z activation through an extended heparin-binding site.	Huang X Swanson R Olson ST	35551912	J Biol Chem	2022
Heparin II domain of fibronectin uses alpha4beta1 integrin to control focal adhesion and stress fiber formation, independent of syndecan-4.	Peterson JA Sheibani N David G Garcia-Pardo A Peters DM	15572366	J Biol Chem	2005
Heparin Decreases in Tumor Necrosis Factor α (TNFα)-induced Endothelial Stress Responses Require Transmembrane Protein 184A and Induction of Dual Specificity Phosphatase 1.	Farwell SL Kanyi D Hamel M Slee JB Miller EA Cipolle MD Lowe-Krentz LJ	26769965	J Biol Chem	2016
Heparin Binds Lamprey Angiotensinogen and Promotes Thrombin Inhibition through a Template Mechanism.	Wei H Cai H Wu J Wei Z Zhang F Huang X Ma L Feng L Zhang R Wang Y Ragg H Zheng Y Zhou A	27681598	J Biol Chem	2016
Heparanases: endoglycosidases that degrade heparan sulfate proteoglycans.	Bame KJ	11445547	Glycobiology	2001
Heparanases produce distinct populations of heparan sulfate glycosaminoglycans in Chinese hamster ovary cells.	Bame KJ Robson K	8999930	J Biol Chem	1997
Heparanase-mediated loss of nuclear syndecan-1 enhances histone acetyltransferase (HAT) activity to promote expression of genes that drive an aggressive tumor phenotype.	Purushothaman A Hurst DR Pisano C Mizumoto S Sugahara K Sanderson RD	21757697	J Biol Chem	2011
Heparanase uptake is mediated by cell membrane heparan sulfate proteoglycans.	Gingis-Velitski S Zetser A Kaplan V Ben-Zaken O Cohen E Levy-Adam F Bashenko Y Flugelman MY Vlodavsky I Ilan N	15292202	J Biol Chem	2004
Heparanase stimulation of protease expression implicates it as a master regulator of the aggressive tumor phenotype in myeloma.	Purushothaman A Chen L Yang Y Sanderson RD	18812315	J Biol Chem	2008
Heparanase plays a dual role in driving hepatocyte growth factor (HGF) signaling by enhancing HGF expression and activity.	Ramani VC Yang Y Ren Y Nan L Sanderson RD	21131364	J Biol Chem	2011
Heparanase induces endothelial cell migration via protein kinase B/Akt activation.	Gingis-Velitski S Zetser A Flugelman MY Vlodavsky I Ilan N	15044433	J Biol Chem	2004
Heparanase expression in invasive trophoblasts and acute vascular damage.	Dempsey LA Plummer TB Coombes SL Platt JL	10764835	Glycobiology	2000
Heparanase enhances syndecan-1 shedding: a novel mechanism for stimulation of tumor growth and metastasis.	Yang Y Macleod V Miao HQ Theus A Zhan F Shaughnessy JD Jr Sawyer J Li JP Zcharia E Vlodavsky I Sanderson RD	17347152	J Biol Chem	2007
Heparanase degrades syndecan-1 and perlecan heparan sulfate: functional implications for tumor cell invasion.	Reiland J Sanderson RD Waguespack M Barker SA Long R Carson DD Marchetti D	14630925	J Biol Chem	2004
Heparanase and syndecan-1 interplay orchestrates fibroblast growth factor-2-induced epithelial-mesenchymal transition in renal tubular cells.	Masola V Gambaro G Tibaldi E Brunati AM Gastaldello A D'Angelo A Onisto M Lupo A	22102278	J Biol Chem	2012
Heparanase and a synthetic peptide of heparan sulfate-interacting protein recognize common sites on cell surface and extracellular matrix heparan sulfate.	Marchetti D Liu S Spohn WC Carson DD	9188488	J Biol Chem	1997
Heparanase 2 interacts with heparan sulfate with high affinity and inhibits heparanase activity.	Levy-Adam F Feld S Cohen-Kaplan V Shteingauz A Gross M Arvatz G Naroditsky I Ilan N Doweck I Vlodavsky I	20576607	J Biol Chem	2010

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