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Crystal structure of the lectin domain of the FimH variant Arg98Ala, in complex with Methyl 3-chloro-4-D-mannopyranosyloxy-3-biphenylcarboxylate External Resource: Annotation Domain Annotation: SCOP2 Classification SCOP2 Database Homepage Chains Type Family Name Domain Identifier Family Identifier Provenance Source (Version) A SCOP2B Superfamily Bacterial adhesin-like 8032980 3000723 SCOP2B (2021-05-27) B SCOP2B Superfamily Bacterial adhesin-like 8032980 3000723 SCOP2B (2021-05-27) C SCOP2B Superfamily Bacterial adhesin-like 8032980 3000723 SCOP2B (2021-05-27) D SCOP2B Superfamily Bacterial adhesin-like 8032980 3000723 SCOP2B (2021-05-27)
Chains Family Name Domain Identifier Architecture Possible Homology Homology Topology Family Provenance Source (Version) A PF09160 e7aynA1 A: beta sandwiches X: Immunoglobulin-like beta-sandwich H: Immunoglobulin-related T: Common fold of diphtheria toxin/transcription factors/cytochrome f F: PF09160 ECOD (1.6) B PF09160 e7aynB1 A: beta sandwiches X: Immunoglobulin-like beta-sandwich H: Immunoglobulin-related T: Common fold of diphtheria toxin/transcription factors/cytochrome f F: PF09160 ECOD (1.6) C PF09160 e7aynC1 A: beta sandwiches X: Immunoglobulin-like beta-sandwich H: Immunoglobulin-related T: Common fold of diphtheria toxin/transcription factors/cytochrome f F: PF09160 ECOD (1.6) D PF09160 e7aynD1 A: beta sandwiches X: Immunoglobulin-like beta-sandwich H: Immunoglobulin-related T: Common fold of diphtheria toxin/transcription factors/cytochrome f F: PF09160 ECOD (1.6)
Chains Accession Name Description Comments Source PF09160 FimH, mannose binding (FimH_man-bind) FimH, mannose binding Members of this family adopt a secondary structure consisting of a beta sandwich, with nine strands arranged in two sheets in a Greek key topology. They are predominantly found in bacterial mannose-specific adhesins, since they are capable of binding ... Members of this family adopt a secondary structure consisting of a beta sandwich, with nine strands arranged in two sheets in a Greek key topology. They are predominantly found in bacterial mannose-specific adhesins, since they are capable of binding to D-mannose [1]. Less Domain
Chains Polymer Molecular Function Biological Process Cellular Component Type 1 fimbrin D-mannose specific adhesin