uncharacterized protein PODANS_1_6550 [Podospora anserina S mat+]
Protein Classification
VPS8 family protein( domain architecture ID 12122643)
VPS8 family protein may play an integral role in the complex vacuolar protein sorting process
List of domain hits
| Name | Accession | Description | Interval | E-value | ||||
| Vps8 | pfam12816 | Golgi CORVET complex core vacuolar protein 8; Vps8 is one of the Golgi complex components ... |
733-936 | 9.02e-98 | ||||
Golgi CORVET complex core vacuolar protein 8; Vps8 is one of the Golgi complex components necessary for vacuolar sorting. Eukaryotic cells contain a highly dynamic endo-membrane system, in which individual organelles keep their identity despite continuous vesicle generation and fusion. Vesicles that bud from a donor membrane are targeted and delivered to each individual organelle, where they release their cargo after fusion with the acceptor membrane. Vps8 is the core component of the endosomal tethering complex CORVET (class C core vacuole/endosome tethering). Vps8 co-operates with Vps21-GTP to mediate endosomal clustering in a reaction that is dependent on Vps3. Vps8 is the only CORVET subunit that is enriched on late endosomes, suggesting that it is a marker for the maturation of late endosomes. Late endosomes form intralumenal vesicles, and the resulting multivesicular bodies fuse with the vacuole to release their cargoes. : Pssm-ID: 463718 Cd Length: 194 Bit Score: 312.57 E-value: 9.02e-98
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| RING_Ubox super family | cl17238 | RING finger (Really Interesting New Gene) domain and U-box domain superfamily; The RING finger ... |
1592-1626 | 2.42e-03 | ||||
RING finger (Really Interesting New Gene) domain and U-box domain superfamily; The RING finger is a specialized type of Zn-finger of 40 to 60 residues that binds two atoms of zinc. It is defined by the "cross-brace" motif that chelates zinc atoms by eight amino acid residues, typically Cys or His, arranged in a characteristic spacing. Canonical RING motifs have been categorized into two major subclasses, RING-HC (C3HC4-type) and RING-H2 (C3H2C3-type), according to their Cys/His content. There are also many variants of RING fingers: some have different Cys/His patterns while some lack a single Cys or His residue at typical Zn ligand positions (the fourth or eighth zinc ligand is prevalently exchanged for an Asp, which can indeed chelate Zn in a RING finger as well). C4C4-, C3HC3D-, C2H2C4-, and C3HC5-type RING fingers are closely related to RING-HC fingers. In contrast, C4HC3- (RING-CH alias RINGv), C3H3C2-, C3H2C2D-, C3DHC3-, and C4HC2H-type RING fingers are more closely related to RING-H2 fingers. However, not all RING finger-containing proteins display regular RING finger features, and the RING finger family has turned out to be multifarious. The degenerate RING fingers of the Siz/PIAS RING (SP-RING) family proteins and sporulation protein RMD5, are characterized by lacking the second, fifth, and sixth Zn2+ ion-coordinating residues. They bind only one Zn2+ ion. On the other hand, the RING fingers of the human APC11 and RBX1 proteins can bind a third Zn atom since they harbor four additional Zn ligands. U-box is a modified form of the RING finger domain that lacks metal chelating Cys and His residues. It resembles the cross-brace RING structure consisting of three beta-sheets and a single alpha-helix, which would be stabilized by salt bridges instead of chelated metal ions. U-box proteins are widely distributed among eukaryotic organisms and show a higher prevalence in plants than in other organisms. RING finger/U-box-containing proteins are a group of diverse proteins with a variety of cellular functions, including oncogenesis, development, viral replication, signal transduction, the cell cycle and apoptosis. Many of them are ubiquitin-protein ligases (E3s) that serve as scaffolds for binding to ubiquitin-conjugating enzymes (E2s, also referred to as ubiquitin carrier proteins or UBCs) in close proximity to substrate proteins, which enable efficient transfer of ubiquitin from E2 to the substrates. The actual alignment was detected with superfamily member cd16484: Pssm-ID: 473075 Cd Length: 48 Bit Score: 37.48 E-value: 2.42e-03
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| Name | Accession | Description | Interval | E-value | ||||
| Vps8 | pfam12816 | Golgi CORVET complex core vacuolar protein 8; Vps8 is one of the Golgi complex components ... |
733-936 | 9.02e-98 | ||||
Golgi CORVET complex core vacuolar protein 8; Vps8 is one of the Golgi complex components necessary for vacuolar sorting. Eukaryotic cells contain a highly dynamic endo-membrane system, in which individual organelles keep their identity despite continuous vesicle generation and fusion. Vesicles that bud from a donor membrane are targeted and delivered to each individual organelle, where they release their cargo after fusion with the acceptor membrane. Vps8 is the core component of the endosomal tethering complex CORVET (class C core vacuole/endosome tethering). Vps8 co-operates with Vps21-GTP to mediate endosomal clustering in a reaction that is dependent on Vps3. Vps8 is the only CORVET subunit that is enriched on late endosomes, suggesting that it is a marker for the maturation of late endosomes. Late endosomes form intralumenal vesicles, and the resulting multivesicular bodies fuse with the vacuole to release their cargoes. Pssm-ID: 463718 Cd Length: 194 Bit Score: 312.57 E-value: 9.02e-98
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| RING-H2_Vps | cd16484 | RING finger, H2 subclass, found in vacuolar protein sorting-associated proteins Vps8, Vps11, ... |
1592-1626 | 2.42e-03 | ||||
RING finger, H2 subclass, found in vacuolar protein sorting-associated proteins Vps8, Vps11, Vps18, Vps41, and similar proteins; This subfamily corresponds to a group of vacuolar protein sorting-associated proteins containing a C-terminal C3H2C3-type RING-H2 finger, which includes Vps8, Vps11, Vps18, and Vps41. Vps11 and Vps18 associate with Vps16 and Vps33 to form a Class C Vps core complex that is required for soluble N-ethylmaleimide-sensitive factor attachment protein receptors (SNARE)-mediated membrane fusion at the lysosome-like yeast vacuole. The core complex, together with two additional compartment-specific subunits, forms the tethering complexes HOPS (homotypic vacuole fusion and protein sorting) and CORVET (class C core vacuole/endosome transport). CORVET contains the additional Vps3 and Vps8 subunits. It operates at endosomes, controls traffic into late endosomes and interacts with the Rab5/Vps21-GTP form. HOPS contains the additional Vps39 and Vps41 subunits. It operates at the lysosomal vacuole, controls all traffic from late endosomes into the vacuole and interacts with the Rab7/Ypt7-GTP form. Pssm-ID: 438147 Cd Length: 48 Bit Score: 37.48 E-value: 2.42e-03
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| Name | Accession | Description | Interval | E-value | ||||
| Vps8 | pfam12816 | Golgi CORVET complex core vacuolar protein 8; Vps8 is one of the Golgi complex components ... |
733-936 | 9.02e-98 | ||||
Golgi CORVET complex core vacuolar protein 8; Vps8 is one of the Golgi complex components necessary for vacuolar sorting. Eukaryotic cells contain a highly dynamic endo-membrane system, in which individual organelles keep their identity despite continuous vesicle generation and fusion. Vesicles that bud from a donor membrane are targeted and delivered to each individual organelle, where they release their cargo after fusion with the acceptor membrane. Vps8 is the core component of the endosomal tethering complex CORVET (class C core vacuole/endosome tethering). Vps8 co-operates with Vps21-GTP to mediate endosomal clustering in a reaction that is dependent on Vps3. Vps8 is the only CORVET subunit that is enriched on late endosomes, suggesting that it is a marker for the maturation of late endosomes. Late endosomes form intralumenal vesicles, and the resulting multivesicular bodies fuse with the vacuole to release their cargoes. Pssm-ID: 463718 Cd Length: 194 Bit Score: 312.57 E-value: 9.02e-98
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| RING-H2_Vps | cd16484 | RING finger, H2 subclass, found in vacuolar protein sorting-associated proteins Vps8, Vps11, ... |
1592-1626 | 2.42e-03 | ||||
RING finger, H2 subclass, found in vacuolar protein sorting-associated proteins Vps8, Vps11, Vps18, Vps41, and similar proteins; This subfamily corresponds to a group of vacuolar protein sorting-associated proteins containing a C-terminal C3H2C3-type RING-H2 finger, which includes Vps8, Vps11, Vps18, and Vps41. Vps11 and Vps18 associate with Vps16 and Vps33 to form a Class C Vps core complex that is required for soluble N-ethylmaleimide-sensitive factor attachment protein receptors (SNARE)-mediated membrane fusion at the lysosome-like yeast vacuole. The core complex, together with two additional compartment-specific subunits, forms the tethering complexes HOPS (homotypic vacuole fusion and protein sorting) and CORVET (class C core vacuole/endosome transport). CORVET contains the additional Vps3 and Vps8 subunits. It operates at endosomes, controls traffic into late endosomes and interacts with the Rab5/Vps21-GTP form. HOPS contains the additional Vps39 and Vps41 subunits. It operates at the lysosomal vacuole, controls all traffic from late endosomes into the vacuole and interacts with the Rab7/Ypt7-GTP form. Pssm-ID: 438147 Cd Length: 48 Bit Score: 37.48 E-value: 2.42e-03
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| RING-H2 | cd16448 | H2 subclass of RING (RING-H2) fingers and its variants; The RING finger is a specialized type ... |
1592-1626 | 4.03e-03 | ||||
H2 subclass of RING (RING-H2) fingers and its variants; The RING finger is a specialized type of Zn-finger of 40 to 60 residues that binds two atoms of zinc. It is defined by the "cross-brace" motif that chelates zinc atoms by eight amino acid residues, typically Cys or His, arranged in a characteristic spacing. Canonical RING motifs have been categorized into two major subclasses, RING-HC (C3HC4-type) and RING-H2 (C3H2C3-type), according to their Cys/His content. There are also many variants of RING fingers: some have different Cys/His patterns while some lack a single Cys or His residue at typical Zn ligand positions (the fourth or eighth zinc ligand is prevalently exchanged for an Asp, which can indeed chelate Zn in a RING finger as well). This family corresponds to the H2 subclass of RING (RING-H2) finger proteins that are characterized by containing C3H2C3-type canonical RING-H2 fingers or noncanonical RING-H2 finger variants, including C4HC3- (RING-CH alias RINGv), C3H3C2-, C3H2C2D-, C3DHC3-, and C4HC2H-type modified RING-H2 fingers. The canonical RING-H2 finger has been defined as C-X2-C-X(9-39)-C-X(1-3)-H-X(2-3)-H-X2-C-X(4-48)-C-X2-C, X is any amino acid and the number of X residues varies in different fingers. It binds two Zn ions in a unique "cross-brace" arrangement, which distinguishes it from tandem zinc fingers and other similar motifs. RING-H2 finger can be found in a group of diverse proteins with a variety of cellular functions, including oncogenesis, development, viral replication, signal transduction, the cell cycle and apoptosis. Many of them are ubiquitin-protein ligases (E3s) that serves as a scaffold for binding to ubiquitin-conjugating enzymes (E2s, also referred to as ubiquitin carrier proteins or UBCs) in close proximity to substrate proteins, which enables efficient transfer of ubiquitin from E2 to the substrates. Pssm-ID: 438112 [Multi-domain] Cd Length: 43 Bit Score: 36.61 E-value: 4.03e-03
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| Blast search parameters | ||||
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