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PDB Keyword
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PF03629

    Table of contents
    1. 1. Topsan Members
    2. 2. Summary
    Live PFAM
    Name: Accession: PF03629 (PFAM live)
    # sequence matches: # architectures:
    # taxonomy ids: PDB:  1zmb2apj3pt5
      

    Resources
    Pfam ID: DUF303 PDB: 1zmb_A
    Solved by: NESG    
    FFAS:(view)
      Top FFAS hit in PDB: "2apjA, Putative Esterase" Top FFAS hit in Pfam: "PF02837, Glycosyl hydrolases family 2, sugar binding domain "
    Meta-Basic:
      Top significant hit (PDB90): "1zmbA, structural genomics, unknown function ; crystal structure of the putative acetylxylan esterase from clostridium acetobutylicum, northeast structural genomics target car6 "
      Top significant hit (PFAM25U): "PF13472, GDSL-like Lipase/Acylhydrolase family"
    CATH: CATH Domain E-value CATH Node
      1zmbC01 5.80E-62
    PUBSERVER: (view)
      Publications(s) found: 814
      Publications(s) meeting filtering criteria: 134
    GeneSilico Metaserver
      PDBBLAST PDB: 1zmb_A SCOP : predicted c.23.10.7
      FFAS PDB: 1zmb_A SCOP : predicted c.23.10.7
      MGENTHREADER PDB: 1zmb_A SCOP : predicted c.23.10.7
      PRC PDB: 1zmb_A SCOP : predicted c.23.10.7
      HHBLITS PDB: 3pt5_A
      COMPASS PDB: 3dxj_N SCOP : e.29.1.2 ECC: 2.7.7.6
      CSBLAST PDB: 1zmb_A SCOP : predicted c.23.10.7
      HHSEARCH PDB: 1zmb_A SCOP : predicted c.23.10.7
    E.coli Annotations
    NCBI: 16132130 PORTECO PORAL: nanS  GeneExpDB: b4309 

    Topsan Members

    Tag pages as 'PF03629' to appear in this list.

    Name Annotation Author(s)
    1zmb

    Summary

    Pfam family PFAM:PF03629 {Domain of unknown function (DUF303) } with 661 members in NR database and additional 463 members in the metagenomic datasets is represented in Bacteria, Eukaryota, and Viruses. The first structural representative solved (PDB Id: TOPSAN:1zmb) was subject to FATCAT structural similarity search that indicated similarity to SCOP (v. 1.73) domain SCOP:d1jrla_ classified as Flavodoxin-like fold. Based on indirect prediction from FFAS then confirmed by structural similarity one can argue that this family is remotely homologous to previously known structures from 'd1jrla_' this fold.

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