Protein of unknown function (DUF229); Members of this family are uncharacterized. They are ...
90-580
0e+00
Protein of unknown function (DUF229); Members of this family are uncharacterized. They are 500-1200 amino acids in length and share a long region conservation that probably corresponds to several domains. The Go annotation for the protein indicates that it is involved in nematode larval development and has a positive regulation on growth rate.
:
Pssm-ID: 397236 Cd Length: 496 Bit Score: 667.13 E-value: 0e+00
Protein of unknown function (DUF229); Members of this family are uncharacterized. They are ...
90-580
0e+00
Protein of unknown function (DUF229); Members of this family are uncharacterized. They are 500-1200 amino acids in length and share a long region conservation that probably corresponds to several domains. The Go annotation for the protein indicates that it is involved in nematode larval development and has a positive regulation on growth rate.
Pssm-ID: 397236 Cd Length: 496 Bit Score: 667.13 E-value: 0e+00
uncharacterized Alkaline phosphatase subfamily; Alkaline phosphatases are non-specific ...
212-493
1.00e-120
uncharacterized Alkaline phosphatase subfamily; Alkaline phosphatases are non-specific phosphomonoesterases that catalyze the hydrolysis reaction via a phosphoseryl intermediate to produce inorganic phosphate and the corresponding alcohol, optimally at high pH. Alkaline phosphatase exists as a dimer, each monomer binding 2 zinc atoms and one magnesium atom, which are essential for enzymatic activity.
Pssm-ID: 293745 Cd Length: 278 Bit Score: 360.68 E-value: 1.00e-120
Protein of unknown function (DUF229); Members of this family are uncharacterized. They are ...
90-580
0e+00
Protein of unknown function (DUF229); Members of this family are uncharacterized. They are 500-1200 amino acids in length and share a long region conservation that probably corresponds to several domains. The Go annotation for the protein indicates that it is involved in nematode larval development and has a positive regulation on growth rate.
Pssm-ID: 397236 Cd Length: 496 Bit Score: 667.13 E-value: 0e+00
uncharacterized Alkaline phosphatase subfamily; Alkaline phosphatases are non-specific ...
212-493
1.00e-120
uncharacterized Alkaline phosphatase subfamily; Alkaline phosphatases are non-specific phosphomonoesterases that catalyze the hydrolysis reaction via a phosphoseryl intermediate to produce inorganic phosphate and the corresponding alcohol, optimally at high pH. Alkaline phosphatase exists as a dimer, each monomer binding 2 zinc atoms and one magnesium atom, which are essential for enzymatic activity.
Pssm-ID: 293745 Cd Length: 278 Bit Score: 360.68 E-value: 1.00e-120
alkaline phosphatases and sulfatases; This family includes alkaline phosphatases and ...
212-491
3.10e-07
alkaline phosphatases and sulfatases; This family includes alkaline phosphatases and sulfatases. Alkaline phosphatases are non-specific phosphomonoesterases that catalyze the hydrolysis reaction via a phosphoseryl intermediate to produce inorganic phosphate and the corresponding alcohol, optimally at high pH. Alkaline phosphatase exists as a dimer, each monomer binding 2 zinc atoms and one magnesium atom, which are essential for enzymatic activity. Sulfatases catalyze the hydrolysis of sulfate esters from wide range of substrates, including steroids, carbohydrates and proteins. Sulfate esters may be formed from various alcohols and amines. The biological roles of sulfatase includes the cycling of sulfur in the environment, in the degradation of sulfated glycosaminoglycans and glycolipids in the lysosome, and in remodeling sulfated glycosaminoglycans in the extracellular space. Both alkaline phosphatase and sulfatase are essential for human metabolism. Deficiency of individual enzyme cause genetic diseases.
Pssm-ID: 293732 [Multi-domain] Cd Length: 237 Bit Score: 52.04 E-value: 3.10e-07
Lipooligosaccharide Phosphoethanolamine Transferase A (LptA) or Lipid A Phosphoethanolamine ...
403-487
3.69e-03
Lipooligosaccharide Phosphoethanolamine Transferase A (LptA) or Lipid A Phosphoethanolamine Transferase; Lipooligosaccharide Phosphoethanolamine Transferase A (LptA) or Lipid A Phosphoethanolamine Transferase catalyzes the modification of the lipid A headgroups by phosphoethanolamine (PEA) or 4-amino-arabinose residues. Lipopolysaccharides, also called endotoxins, protect bacterial pathogens from antimicrobial peptides and have roles in virulence. The PEA modified lipid A increases resistance to the cationic cyclic polypeptide antibiotic, polymyxin. Lipid A PEA transferases usually consist of a transmembrane domain anchoring the enzyme to the periplasmic face of the cytoplasmic membrane.
Pssm-ID: 293741 [Multi-domain] Cd Length: 288 Bit Score: 39.91 E-value: 3.69e-03
Database: CDSEARCH/cdd Low complexity filter: no Composition Based Adjustment: yes E-value threshold: 0.01
References:
Wang J et al. (2023), "The conserved domain database in 2023", Nucleic Acids Res.51(D)384-8.
Lu S et al. (2020), "The conserved domain database in 2020", Nucleic Acids Res.48(D)265-8.
Marchler-Bauer A et al. (2017), "CDD/SPARCLE: functional classification of proteins via subfamily domain architectures.", Nucleic Acids Res.45(D)200-3.
of the residues that compose this conserved feature have been mapped to the query sequence.
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of your query sequence and the protein sequences used to curate the domain model,
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The thumbnail image, if present, provides an approximate view of the feature's location in 3 dimensions.
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Functional characterization of the conserved domain architecture found on the query.
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This image shows a graphical summary of conserved domains identified on the query sequence.
The Show Concise/Full Display button at the top of the page can be used to select the desired level of detail: only top scoring hits
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Domains are color coded according to superfamilies
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if a domain or superfamily has been annotated with functional sites (conserved features),
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click on the bars or triangles to view your query sequence embedded in a multiple sequence alignment of the proteins used to develop the corresponding domain model.
The table lists conserved domains identified on the query sequence. Click on the plus sign (+) on the left to display full descriptions, alignments, and scores.
Click on the domain model's accession number to view the multiple sequence alignment of the proteins used to develop the corresponding domain model.
To view your query sequence embedded in that multiple sequence alignment, click on the colored bars in the Graphical Summary portion of the search results page,
or click on the triangles, if present, that represent functional sites (conserved features)
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Concise Display shows only the best scoring domain model, in each hit category listed below except non-specific hits, for each region on the query sequence.
(labeled illustration) Standard Display shows only the best scoring domain model from each source, in each hit category listed below for each region on the query sequence.
(labeled illustration) Full Display shows all domain models, in each hit category below, that meet or exceed the RPS-BLAST threshold for statistical significance.
(labeled illustration) Four types of hits can be shown, as available,
for each region on the query sequence:
specific hits meet or exceed a domain-specific e-value threshold
(illustrated example)
and represent a very high confidence that the query sequence belongs to the same protein family as the sequences use to create the domain model
non-specific hits
meet or exceed the RPS-BLAST threshold for statistical significance (default E-value cutoff of 0.01, or an E-value selected by user via the
advanced search options)
the domain superfamily to which the specific and non-specific hits belong
multi-domain models that were computationally detected and are likely to contain multiple single domains
Retrieve proteins that contain one or more of the domains present in the query sequence, using the Conserved Domain Architecture Retrieval Tool
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