Q9UJ71Uniprot
fold
class
family
origin
species
available structures
3C22 : no ligand3KQG : no ligand3P5D : aMan13Man3P5E : Man3P5G : aGal13(aFuc12)Gal3P5H : bGlc13Glc3P5I : bGal14GlcNAC- SO33P7F : no ligand3P7G : Man3P7H : aGlc14Glc4AK8 : no ligand4N32 : GlcNAc4N33 : bGlcNAc13bGal14GlcbCH2CH2N34N34 : aMeGlcNAc4N35 : bGlcNAc13bGal14GlcbCH2CH2N34N36 : aMeGlcNAc4N37 : aMeMan4N38 : bGlcNAc13bGal14GlcbCH2CH2N35G6U : GlcNS6S
related proteins
> 50% identity
> 50% identity
[Fuc(a1-2)]Gal.svg)
GlcNAc.svg)
Glc.svg)
Glc.svg)
Gal(b1-4)Glc.svg)
Man.svg)
PubMed
Porkolab V, Chabrol E, Varga N, Ordanini S, Sutkevičiu Tė I, Thépaut M, García-Jiménez M, Girard E, Nieto P, Bernardi A, Fieschi F.
Rational-Differential Design of Highly Specific Glycomimetic Ligands: Targeting DC-SIGN and Excluding Langerin Recognition. ACS chemical biology 2018
Rational-Differential Design of Highly Specific Glycomimetic Ligands: Targeting DC-SIGN and Excluding Langerin Recognition. ACS chemical biology 2018
PubMed
Chabrol E, Thépaut M, Dezutter-Dambuyant C, Vivès C, Marcoux J, Kahn R, Valladeau-Guilemond J, Vachette P, Durand D, Fieschi F.
Alteration of the langerin oligomerization state affects Birbeck granule formation. Biophysical journal 2015
Alteration of the langerin oligomerization state affects Birbeck granule formation. Biophysical journal 2015
PubMed
Feinberg H, Rowntree TJ, Tan SL, Drickamer K, Weis WI, Taylor ME.
Common polymorphisms in human langerin change specificity for glycan ligands. J. Biol. Chem. 2013
Common polymorphisms in human langerin change specificity for glycan ligands. J. Biol. Chem. 2013
PubMed
Feinberg H, Taylor ME, Razi N, McBride R, Knirel YA, Graham SA, Drickamer K, Weis WI.
Structural basis for langerin recognition of diverse pathogen and mammalian glycans through a single binding site. J. Biol. Chem. 2011
Structural basis for langerin recognition of diverse pathogen and mammalian glycans through a single binding site. J. Biol. Chem. 2011
PubMed
Feinberg H, Powlesland AS, Taylor ME, Weis WI.
Trimeric structure of langerin. J. Biol. Chem. 2010
Trimeric structure of langerin. J. Biol. Chem. 2010
PubMed
Thpaut M, Valladeau J, Nurisso A, Kahn R, Arnou B, Viv S C, Sealand S, Ebel C, Monnier C, Dezutter-Dambuyant C, Imberty A, Fieschi F
Structural studies of kangerin and Birbeck granules: a macromolecular organization model Biochemistry 2009
Structural studies of kangerin and Birbeck granules: a macromolecular organization model Biochemistry 2009
PubMed
Chatwell L, Holla A, Kaufer BB, Skerra A.
The carbohydrate recognition domain of Langerin reveals high structural similarity with the one of DC-SIGN but an additional, calcium-independent sugar-binding site. Mol. Immunol. 2008
The carbohydrate recognition domain of Langerin reveals high structural similarity with the one of DC-SIGN but an additional, calcium-independent sugar-binding site. Mol. Immunol. 2008
How to cite: F Bonnardel, J Mariethoz, S Salentin, X Robin, M Schroeder, S Perez, F Lisacek, A Imberty; UniLectin3D, a database of carbohydrate binding proteins with curated information on 3D structures and interacting ligands, Nucleic Acids Research, Nucleic Acids Research, Volume 47, Issue D1, 8 January 2019, Pages D1236–D1244, doi:10.1093/nar/gky832