SUPERFAMILY 1.75 HMM library and genome assignments server

SUPERFAMILY 2 can be accessed from supfam.org. Please contact us if you experience any problems.

Domain combinations for 51445,54556,_gap_,51055,51055 superfamilies in groups of genomes

The selected domain combination is the occurrence of the following superfamily domains in N- to C-Terminal order:

51445 - (Trans)glycosidases
54556 - Chitinase insertion domain
51055 - Carbohydrate binding domain
51055 - Carbohydrate binding domain

Phylogenetic distribution

Other domain architectures with a similar genomic distribution.
See the phylogenetic distribution for this domain architecture.


Jump to [ Top of page · Domain combinations in individual genomes ]

Network of domain occurrence in all genomes

Domain combinations in groups of genomes

Click on a group of genomes below to view all sequences containing the chosen domain combination in that group of genomes.

Groups of genomes may be slower than individual genomes.


Jump to [ Top of page · Domain combinations in groups of genomes ]

Domain combinations in individual genomes

Click on a genome below to view all sequences containing the chosen domain combination (listed below) in that genome.

Complete genomes
Genome     Number
Catenulispora_acidiphila_DSM_44928 1
Micromonospora_sp._L5 1
Micromonospora_aurantiaca_ATCC_27029 1
Xylanimonas_cellulosilytica_DSM_15894 1
Clostridium_beijerinckii_NCIMB_8052 1
Aeromonas_veronii_B565 0
Aeromonas_hydrophila_subsp._hydrophila_ATCC_7966 0
Photobacterium_profundum_SS9 1
Shewanella_woodyi_ATCC_51908 0
Shewanella_sp._MR-4 0
Shewanella_violacea_DSS12 0

Strains
Genome     Number
Aeromonas_hydrophila_ML09-119 0
Shewanella_baltica_OS223 0
Enterobacter_cloacae_SCF1 0
Enterobacter_cloacae_EcWSU1 0
Enterobacter_cloacae_subsp._cloacae_ENHKU01 0
Enterobacter_cloacae_subsp._cloacae_NCTC_9394 0

Others
Genome     Number
STRING_v9.0.5_(STRING) 4
Uniprot_2018_03_genome 1330
NCBI_2017_08_genome 160

Jump to [ Top of page · Domain combinations in groups of genomes · Domain combinations in individual genomes ]