uncharacterized protein CC84DRAFT_1175650 [Paraphaeosphaeria sporulosa]
Protein Classification
List of domain hits
| Name | Accession | Description | Interval | E-value | |||
| PFM_jacalin-like | cd20231 | pore-forming module of uncharacterized proteins which have an N-terminal jacalin-like lectin ... |
205-356 | 2.63e-41 | |||
pore-forming module of uncharacterized proteins which have an N-terminal jacalin-like lectin domain, and similar aerolysin-type beta-barrel pore-forming proteins; Jacalin-like lectins are sugar-binding protein domains. Proteins having these lectin domains may bind mono- or oligosaccharides with high specificity. Generally, pore-forming proteins (PFPs) are secreted as water-soluble monomers, which upon binding to target lipid membranes, oligomerize and form transmembrane pores detrimental to cells. Beta-PFPs form pores by transmembrane beta-barrels. Aerolysin-type beta-PFPs are believed to use an amphipathic beta-hairpin to form the beta-barrel. Many of this family are bacterial toxins. A significant portion of the monomeric subunit structure is re-organized to form the pore. Oligomers formed by members of the aerolysin family include: hepta- (aerolysin), octa- (Dln1), and nonameric oligomers (lysenin and monalysin). : Pssm-ID: 380801 [Multi-domain] Cd Length: 150 Bit Score: 147.50 E-value: 2.63e-41
|
|||||||
| Jacalin_like super family | cl03205 | Jacalin-like lectin domain; Jacalin-like lectins are sugar-binding protein domains mostly ... |
53-174 | 2.38e-04 | |||
Jacalin-like lectin domain; Jacalin-like lectins are sugar-binding protein domains mostly found in plants. They adopt a beta-prism topology consistent with a circularly permuted three-fold repeat of a structural motif. Proteins containing this domain may bind mono- or oligosaccharides with high specificity. The domain can occur in tandem-repeat arrangements with up to six copies, and in architectures combined with a variety of other functional domains. Taxonomic distribution is not restricted to plants, the domain is also found in various mammalian proteins, for example. The actual alignment was detected with superfamily member cd09302: Pssm-ID: 446042 Cd Length: 128 Bit Score: 41.62 E-value: 2.38e-04
|
|||||||
| Name | Accession | Description | Interval | E-value | |||
| PFM_jacalin-like | cd20231 | pore-forming module of uncharacterized proteins which have an N-terminal jacalin-like lectin ... |
205-356 | 2.63e-41 | |||
pore-forming module of uncharacterized proteins which have an N-terminal jacalin-like lectin domain, and similar aerolysin-type beta-barrel pore-forming proteins; Jacalin-like lectins are sugar-binding protein domains. Proteins having these lectin domains may bind mono- or oligosaccharides with high specificity. Generally, pore-forming proteins (PFPs) are secreted as water-soluble monomers, which upon binding to target lipid membranes, oligomerize and form transmembrane pores detrimental to cells. Beta-PFPs form pores by transmembrane beta-barrels. Aerolysin-type beta-PFPs are believed to use an amphipathic beta-hairpin to form the beta-barrel. Many of this family are bacterial toxins. A significant portion of the monomeric subunit structure is re-organized to form the pore. Oligomers formed by members of the aerolysin family include: hepta- (aerolysin), octa- (Dln1), and nonameric oligomers (lysenin and monalysin). Pssm-ID: 380801 [Multi-domain] Cd Length: 150 Bit Score: 147.50 E-value: 2.63e-41
|
|||||||
| Jacalin_like | cd09302 | Jacalin-like lectin domain; Jacalin-like lectins are sugar-binding protein domains mostly ... |
53-174 | 2.38e-04 | |||
Jacalin-like lectin domain; Jacalin-like lectins are sugar-binding protein domains mostly found in plants. They adopt a beta-prism topology consistent with a circularly permuted three-fold repeat of a structural motif. Proteins containing this domain may bind mono- or oligosaccharides with high specificity. The domain can occur in tandem-repeat arrangements with up to six copies, and in architectures combined with a variety of other functional domains. Taxonomic distribution is not restricted to plants, the domain is also found in various mammalian proteins, for example. Pssm-ID: 187706 Cd Length: 128 Bit Score: 41.62 E-value: 2.38e-04
|
|||||||
| Name | Accession | Description | Interval | E-value | ||||
| PFM_jacalin-like | cd20231 | pore-forming module of uncharacterized proteins which have an N-terminal jacalin-like lectin ... |
205-356 | 2.63e-41 | ||||
pore-forming module of uncharacterized proteins which have an N-terminal jacalin-like lectin domain, and similar aerolysin-type beta-barrel pore-forming proteins; Jacalin-like lectins are sugar-binding protein domains. Proteins having these lectin domains may bind mono- or oligosaccharides with high specificity. Generally, pore-forming proteins (PFPs) are secreted as water-soluble monomers, which upon binding to target lipid membranes, oligomerize and form transmembrane pores detrimental to cells. Beta-PFPs form pores by transmembrane beta-barrels. Aerolysin-type beta-PFPs are believed to use an amphipathic beta-hairpin to form the beta-barrel. Many of this family are bacterial toxins. A significant portion of the monomeric subunit structure is re-organized to form the pore. Oligomers formed by members of the aerolysin family include: hepta- (aerolysin), octa- (Dln1), and nonameric oligomers (lysenin and monalysin). Pssm-ID: 380801 [Multi-domain] Cd Length: 150 Bit Score: 147.50 E-value: 2.63e-41
|
||||||||
| PFM_Dln1-like | cd20221 | pore-forming module of Danio rerio Dln1, and similar aerolysin-type beta-barrel pore-forming ... |
197-351 | 4.36e-10 | ||||
pore-forming module of Danio rerio Dln1, and similar aerolysin-type beta-barrel pore-forming proteins; Since Danio rerio Dln1 has a specific affinity towards high-mannose glycans, which are common on the surface of virus and fungi, it has been suggested that it may play a defense role. Members of this group also include lamprey immune protein (LIP), a defense molecule derived from lamprey supraneural body tissue which has efficient cytocidal actions against tumor cells. Many proteins belonging to this group have a N-terminal Jacalin-like lectin domain. They belong to the aerolysin family of beta-pore-forming proteins (beta-PFPs). PFPs are generally secreted as water-soluble monomers, which upon binding to target lipid membranes, oligomerize and form transmembrane pores harmful to cells. Beta-PFPs form pores by transmembrane beta-barrels. Aerolysin-type beta-PFPs are believed to use an amphipathic beta-hairpin to form the beta-barrel, are found in all kingdoms of life and many are bacterial toxins. In addition to having a role in microbial infection, they have potential as biotechnological sensors and delivery systems. They share a similar monomeric architecture, with a variable membrane-binding domain and a structurally conserved pore-forming region. A significant portion of the monomeric subunit structure is re-organized to form the pore. Oligomers formed by members of the aerolysin family include: hepta- (aerolysin), octa- (Dln1), and nonameric oligomers (lysenin and monalysin). Pssm-ID: 380791 [Multi-domain] Cd Length: 168 Bit Score: 58.92 E-value: 4.36e-10
|
||||||||
| PFM_HFR-2-like | cd20216 | pore-forming module of wheat HFR-2 toxin, FEM32, and similar aerolysin-type beta-barrel ... |
205-286 | 2.77e-05 | ||||
pore-forming module of wheat HFR-2 toxin, FEM32, and similar aerolysin-type beta-barrel pore-forming proteins; HFR-2 is a wheat cytolytic toxin which may normally function in defense against certain insects or pathogens. The Hfr-2 gene is upregulated in virulent Hessian fly larval feedingdouble dagger. The HFR-2 protein may insert in plant cell membranes at the feeding sites and by forming pores provide water, ions and other small nutritive molecules to the developing larvae. This group also contains FEM32, a flower-specific lectin-like protein from the dioecious plant Rumex acetosa, which alters flower development and induces male sterility in transgenic tobacco. It has been suggested that the FEM32 gene activates some form of programmed cell death (PCD), a process that could be mediated by the action of its lectin domains for binding to specific glycoproteins on the cell membrane and facilitated by the formation of pore structures in the membranes and the subsequent leakage of the cytosolic content through its pore-forming aerolysin domain. Most proteins belonging to this group have N-terminal agglutatin (also known as amaranthin) lectin domains; most have two agglutatin domains, in combination with one aerolysin domain. Members of this group belong to the aerolysin family of beta-pore-forming proteins (beta-PFPs). PFPs are generally secreted as water-soluble monomers, which upon binding to target lipid membranes, oligomerize and form transmembrane pores harmful to cells. Beta-PFPs form pores by transmembrane beta-barrels. Aerolysin-type beta-PFPs are believed to use an amphipathic beta-hairpin to form the beta-barrel, are found in all kingdoms of life and many are bacterial toxins. In addition to having a role in microbial infection, they have potential as biotechnological sensors and delivery systems. They share a similar monomeric architecture, with a variable membrane-binding domain and a structurally conserved pore-forming region. A significant portion of the monomeric subunit structure is re-organized to form the pore. Oligomers formed by members of the aerolysin family include: hepta- (aerolysin), octa- (Dln1), and nonameric oligomers (lysenin and monalysin). Pssm-ID: 380786 [Multi-domain] Cd Length: 152 Bit Score: 44.89 E-value: 2.77e-05
|
||||||||
| PFM_epsilon-toxin-like | cd20223 | pore-forming module of Clostridium perfringens epsilon-toxin and similar aerolysin-type ... |
205-286 | 1.06e-04 | ||||
pore-forming module of Clostridium perfringens epsilon-toxin and similar aerolysin-type beta-barrel pore-forming proteins; Clostridium perfringens epsilon-toxin is responsible for fatal enterotoxemia in ungulates. It forms a heptamer in the lipid rafts of Madin-Darby Canine Kidney (MDCK) cells, leading to cell death; its oligomer formation is induced by activation of neutral sphingomyelinase. This group also includes an insecticidal crystal protein Cry14-4 (encoded on plasmid pBMBt1 of Bacillus thuringiensis serovar darmstadiensis). Also included is pXO2-60 (a protein from the pathogenic pXO2 plasmid of Bacillus anthracis) which harbors a unique ubiquitin-like fold domain at the C-terminus of the aerolysin-like domain, and is involved in virulence. They belong to the aerolysin family of beta-pore-forming proteins (beta-PFPs). PFPs are generally secreted as water-soluble monomers, which upon binding to target lipid membranes, oligomerize and form transmembrane pores harmful to cells. Beta-PFPs form pores by transmembrane beta-barrels. Aerolysin-type beta-PFPs are believed to use an amphipathic beta-hairpin to form the beta-barrel, are found in all kingdoms of life and many are bacterial toxins. In addition to having a role in microbial infection, they have potential as biotechnological sensors and delivery systems. They share a similar monomeric architecture, with a variable membrane-binding domain and a structurally conserved pore-forming region. A significant portion of the monomeric subunit structure is re-organized to form the pore. Oligomers formed by members of the aerolysin family include: hepta- (aerolysin), octa- (Dln1), and nonameric oligomers (lysenin and monalysin). Pssm-ID: 380793 [Multi-domain] Cd Length: 144 Bit Score: 42.99 E-value: 1.06e-04
|
||||||||
| PFM_physalysin-1-like | cd20219 | pore-forming module of Physella acuta physalysin1 and similar aerolysin-type beta-barrel ... |
208-298 | 1.36e-04 | ||||
pore-forming module of Physella acuta physalysin1 and similar aerolysin-type beta-barrel pore-forming proteins; From a comparative immunological study of the snail Physella acuta, physalysin1 was identified as one of three physalysins in the snail. Members of this family belong to the aerolysin family of beta-pore-forming proteins (beta-PFPs). PFPs are generally secreted as water-soluble monomers, which upon binding to target lipid membranes, oligomerize and form transmembrane pores harmful to cells. Beta-PFPs form pores by transmembrane beta-barrels. Aerolysin-type beta-PFPs are believed to use an amphipathic beta-hairpin to form the beta-barrel, are found in all kingdoms of life and many are bacterial toxins. In addition to having a role in microbial infection, they have potential as biotechnological sensors and delivery systems. They share a similar monomeric architecture, with a variable membrane-binding domain and a structurally conserved pore-forming region. A significant portion of the monomeric subunit structure is re-organized to form the pore. Oligomers formed by members of the aerolysin family include: hepta- (aerolysin), octa- (Dln1), and nonameric oligomers (lysenin and monalysin). Pssm-ID: 380789 Cd Length: 125 Bit Score: 41.92 E-value: 1.36e-04
|
||||||||
| Jacalin_like | cd09302 | Jacalin-like lectin domain; Jacalin-like lectins are sugar-binding protein domains mostly ... |
53-174 | 2.38e-04 | ||||
Jacalin-like lectin domain; Jacalin-like lectins are sugar-binding protein domains mostly found in plants. They adopt a beta-prism topology consistent with a circularly permuted three-fold repeat of a structural motif. Proteins containing this domain may bind mono- or oligosaccharides with high specificity. The domain can occur in tandem-repeat arrangements with up to six copies, and in architectures combined with a variety of other functional domains. Taxonomic distribution is not restricted to plants, the domain is also found in various mammalian proteins, for example. Pssm-ID: 187706 Cd Length: 128 Bit Score: 41.62 E-value: 2.38e-04
|
||||||||
| Jacalin | cd09612 | Jacalin-like plant lectin domain; Jacalin-like lectins are sugar-binding protein domains ... |
52-174 | 2.72e-03 | ||||
Jacalin-like plant lectin domain; Jacalin-like lectins are sugar-binding protein domains mostly found in plants. They adopt a beta-prism topology consistent with a circularly permuted three-fold repeat of a structural motif. Proteins containing this domain may bind mono- or oligosaccharides with high specificity. The domain can occur in tandem-repeat arrangements with up to six copies, and in architectures combined with a variety of other functional domains. The family was initially named after an abundant protein found in the jackfruit seed. Jacalin specifically binds to the alpha-O-glycoside of the disaccharide Gal-beta1-3-GalNAc, and has proven useful in the study of O-linked glycoproteins. Jacalin-like lectins in this family may occur in various oligomerization states. Pssm-ID: 187708 [Multi-domain] Cd Length: 130 Bit Score: 38.32 E-value: 2.72e-03
|
||||||||
| Blast search parameters | ||||
|
