P47929Uniprot
Fold
Class
Family
Origin
Species
Available structures
1BKZ : no ligand2GAL : Gal3GAL : GalN3ZXE : galactose-benzylphosphate3ZXF : no ligand4GAL : bGal14Glc4UW3 : bGal-O-R4UW4 : bGal-O-R4UW5 : bGal-O-R4UW6 : bGal-O-R4XBQ : bGal13GlcNAc4Y26 : bGal13(6SO3)GlcNAc5GAL : bGal14GlcNAc5H9Q : thiodigalactoside derivative5H9S : 3-deoxy-3-(4-[m-fluorophenyl]-6VTO : galactose derivative 6VTP : no ligand6VTQ : Lactose6VTR : no ligand6VTS : Lactose7N4O : no ligand7N57 : Lactose7N6C : no ligand7N8D : lactose7N8G : no ligand7N96 : no ligand7RDG : Lactose7TKW : no ligand7TKX : galactose derivative7TKY : no ligand7TKZ : Lactose7TRN : no ligand7TRO : Lactose7XAC : no ligand7XBL : no ligand
Related proteins
> 50% identity
> 50% identity
GlcNAc.svg)
Glc.svg)
GlcNAc.svg)
PubMed
Liang Y, Wang Y, Zhu X, Cai J, Shi A, Huang J, Zhu Q, Si Y.
Binding of Glycerol to Human Galectin-7 Expands Stability and Modulates Its Functions. International journal of molecular sciences 2022
Binding of Glycerol to Human Galectin-7 Expands Stability and Modulates Its Functions. International journal of molecular sciences 2022
PubMed
Liang Y, Wang Y, Zhu X, Cai J, Shi A, Huang J, Zhu Q, Si Y.
Binding of Glycerol to Human Galectin-7 Expands Stability and Modulates Its Functions. International journal of molecular sciences 2022
Binding of Glycerol to Human Galectin-7 Expands Stability and Modulates Its Functions. International journal of molecular sciences 2022
PubMed
Murphy P, Romero A, Xiao Q, Ludwig A, Jogula S, Shilova N, Singh T, Gabba A, Javed B, Zhang D, Medrano F, Kaltner H, Kopitz J, Bovin N, Wu A, Klein M, Percec V, Gabius H.
Probing sulfatide-tissue lectin recognition with functionalized glycodendrimersomes. iScience 2021
Probing sulfatide-tissue lectin recognition with functionalized glycodendrimersomes. iScience 2021
PubMed
Hassan M, Baussiere F, Guzelj S, Sundin A, Hakansson M, Kovacic R, Leffler H, Tomasic T, Anderluh M, Jakopin Z, Nilsson U.
Structure-Guided Design of d-Galactal Derivatives with High Affinity and Selectivity for the Galectin-8 N-Terminal Domain. ACS medicinal chemistry letters 2021
Structure-Guided Design of d-Galactal Derivatives with High Affinity and Selectivity for the Galectin-8 N-Terminal Domain. ACS medicinal chemistry letters 2021
PubMed
Pham N, Létourneau M, Fortier M, Bégin G, Al-Abdul-Wahid M, Pucci F, Folch B, Rooman M, Chatenet D, St-Pierre Y, Lagüe P, Calmettes C, Doucet N.
Perturbing dimer interactions and allosteric communication modulates the immunosuppressive activity of human galectin-7. The Journal of biological chemistry 2021
Perturbing dimer interactions and allosteric communication modulates the immunosuppressive activity of human galectin-7. The Journal of biological chemistry 2021
PubMed
Patel B, Kishor C, Houston T, Shatz-Azoulay H, Zick Y, Vinik Y, Blanchard H.
Rational Design and Synthesis of Methyl-b-d-galactomalonyl Phenyl Esters as Potent Galectin-8-N Antagonists. Journal of medicinal chemistry 2020
Rational Design and Synthesis of Methyl-b-d-galactomalonyl Phenyl Esters as Potent Galectin-8-N Antagonists. Journal of medicinal chemistry 2020
PubMed
Hsieh T, Lin H, Tu Z, Lin T, Wu S, Tseng Y, Liu F, Hsu S, Lin C.
Dual thio-digalactoside-binding modes of human galectins as the structural basis for the design of potent and selective inhibitors. Scientific reports 2016
Dual thio-digalactoside-binding modes of human galectins as the structural basis for the design of potent and selective inhibitors. Scientific reports 2016
PubMed
Hsieh T, Lin H, Tu Z, Lin T, Wu S, Tseng Y, Liu F, Hsu S, Lin C.
Dual thio-digalactoside-binding modes of human galectins as the structural basis for the design of potent and selective inhibitors. Scientific reports 2016
Dual thio-digalactoside-binding modes of human galectins as the structural basis for the design of potent and selective inhibitors. Scientific reports 2016
PubMed
Hsieh T, Lin H, Tu Z, Huang B, Wu S, Lin C.
Structural Basis Underlying the Binding Preference of Human Galectins-1, -3 and -7 for Galbeta1-3,4GlcNAc. PloS one 2015
Structural Basis Underlying the Binding Preference of Human Galectins-1, -3 and -7 for Galbeta1-3,4GlcNAc. PloS one 2015
PubMed
Ramaswamy S, Sleiman MH, Masuyer G, Arbez-Gindre C, Micha-Screttas M, Calogeropoulou T, Steele BR, Acharya KR.
Structural basis of multivalent galactose-based dendrimer recognition by human galectin-7 FEBS J. 2014
Structural basis of multivalent galactose-based dendrimer recognition by human galectin-7 FEBS J. 2014
PubMed
Ramaswamy S, Sleiman MH, Masuyer G, Arbez-Gindre C, Micha-Screttas M, Calogeropoulou T, Steele BR, Acharya KR.
Structural basis of multivalent galactose-based dendrimer recognition by human galectin-7 FEBS J. 2014
Structural basis of multivalent galactose-based dendrimer recognition by human galectin-7 FEBS J. 2014
PubMed
Ramaswamy S, Sleiman MH, Masuyer G, Arbez-Gindre C, Micha-Screttas M, Calogeropoulou T, Steele BR, Acharya KR.
Structural basis of multivalent galactose-based dendrimer recognition by human galectin-7 FEBS J. 2014
Structural basis of multivalent galactose-based dendrimer recognition by human galectin-7 FEBS J. 2014
PubMed
Ramaswamy S, Sleiman MH, Masuyer G, Arbez-Gindre C, Micha-Screttas M, Calogeropoulou T, Steele BR, Acharya KR.
Structural basis of multivalent galactose-based dendrimer recognition by human galectin-7 FEBS J. 2014
Structural basis of multivalent galactose-based dendrimer recognition by human galectin-7 FEBS J. 2014
PubMed
Ramaswamy S, Sleiman MH, Masuyer G, Arbez-Gindre C, Micha-Screttas M, Calogeropoulou T, Steele BR, Acharya KR.
Structural basis of multivalent galactose-based dendrimer recognition by human galectin-7 FEBS J. 2014
Structural basis of multivalent galactose-based dendrimer recognition by human galectin-7 FEBS J. 2014
PubMed
Ramaswamy S, Sleiman MH, Masuyer G, Arbez-Gindre C, Micha-Screttas M, Calogeropoulou T, Steele BR, Acharya KR.
Structural basis of multivalent galactose-based dendrimer recognition by human galectin-7 FEBS J. 2014
Structural basis of multivalent galactose-based dendrimer recognition by human galectin-7 FEBS J. 2014
PubMed
Ramaswamy S, Sleiman MH, Masuyer G, Arbez-Gindre C, Micha-Screttas M, Calogeropoulou T, Steele BR, Acharya KR.
Structural basis of multivalent galactose-based dendrimer recognition by human galectin-7 FEBS J. 2014
Structural basis of multivalent galactose-based dendrimer recognition by human galectin-7 FEBS J. 2014
PubMed
Ramaswamy S, Sleiman MH, Masuyer G, Arbez-Gindre C, Micha-Screttas M, Calogeropoulou T, Steele BR, Acharya KR.
Structural basis of multivalent galactose-based dendrimer recognition by human galectin-7 FEBS J. 2014
Structural basis of multivalent galactose-based dendrimer recognition by human galectin-7 FEBS J. 2014
PubMed
Ramaswamy S, Sleiman MH, Masuyer G, Arbez-Gindre C, Micha-Screttas M, Calogeropoulou T, Steele BR, Acharya KR.
Structural basis of multivalent galactose-based dendrimer recognition by human galectin-7 FEBS J. 2014
Structural basis of multivalent galactose-based dendrimer recognition by human galectin-7 FEBS J. 2014
PubMed
Masuyer G, Jabeen T, Öberg C, Leffler H, Nilsson U, Acharya K.
Inhibition mechanism of human galectin-7 by a novel galactose-benzylphosphate inhibitor. The FEBS journal 2012
Inhibition mechanism of human galectin-7 by a novel galactose-benzylphosphate inhibitor. The FEBS journal 2012
PubMed
Masuyer G, Jabeen T, Öberg C, Leffler H, Nilsson U, Acharya K.
Inhibition mechanism of human galectin-7 by a novel galactose-benzylphosphate inhibitor. The FEBS journal 2012
Inhibition mechanism of human galectin-7 by a novel galactose-benzylphosphate inhibitor. The FEBS journal 2012
PubMed
Lin, H.Y., Hsieh, T.J., Tu, Z., Huang, B.S., Chien, C.T., Wu, S.C., Hsu, S.T., Lin, C.H.
To be published. Structural basis of human galectin-1 inhibition with Ki values in the micro- to nanomolar range 0
To be published. Structural basis of human galectin-1 inhibition with Ki values in the micro- to nanomolar range 0
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