Export your current network:
... as a vector graphic:
SVG: scalable vector graphic - can be opened and edited in Illustrator, CorelDraw, Dia, etc
... as short tabular text output:
TSV: tab separated values - can be opened in Excel and Cytoscape (lists only one-way edges: A-B)
... as tabular text output:
TSV: tab separated values - can be opened in Excel (lists reciprocal edges: A-B,B-A)
... as an XML summary:
structured XML interaction data, according to the 'PSI-MI' data standard
... protein node degrees:
node degree of proteins in your network (given the current score cut-off)
... network coordinates:
a flat-file format describing the coordinates and colors of nodes in the network
... protein sequences:
MFA: multi-fasta format - containing the aminoacid sequences in the network
... protein annotations:
a tab-delimited file describing the names, domains and descriptions of proteins in your network
... functional annotations:
a tab-delimited file containing all known functional terms of protiens in your network
Browse interactions in tabular form:
| node1 | node2 | node1 accession | node2 accession | node1 annotation | node2 annotation | score |
| ftsZ-like | mamX | MGMSRv2__2324 | MGMSRv2__2322 | ftsZ-like; Required for synthesis of single-domain magnetite particles and magnetosomes, especially in the absence of nitrate. Forms filaments, which form bundles in the presence of GTP. Has both GTPase and ATPase activity; GTPase is 2.5 time more efficient. Has no activity on CTP or TTP. May be involved in redox control for magnetite crystallization (Probable). Mild overexpression causes cell elongation. May recruit other proteins (MamX, MamY and MamZ and possibly Mms6) to a complex required for biomineralization (Probable); Belongs to the FtsZ family. | Magnetosome protein MamX; Required for correct biomineralization of the magnetosome, maybe via redox control. May function with MamY, MamZ amd Mms6 in biomineralization (Probable). | 0.946 |
| ftsZ-like | mamY | MGMSRv2__2324 | MGMSRv2__2321 | ftsZ-like; Required for synthesis of single-domain magnetite particles and magnetosomes, especially in the absence of nitrate. Forms filaments, which form bundles in the presence of GTP. Has both GTPase and ATPase activity; GTPase is 2.5 time more efficient. Has no activity on CTP or TTP. May be involved in redox control for magnetite crystallization (Probable). Mild overexpression causes cell elongation. May recruit other proteins (MamX, MamY and MamZ and possibly Mms6) to a complex required for biomineralization (Probable); Belongs to the FtsZ family. | mamY; May be involved in constriction of the cell inner membrane to form mature magnetosomes. Binds cardiolipin and liposomes (By similarity). May function with MamX, MamZ amd Mms6 in biomineralization (Probable). | 0.904 |
| ftsZ-like | mamZ | MGMSRv2__2324 | MGMSRv2__2323 | ftsZ-like; Required for synthesis of single-domain magnetite particles and magnetosomes, especially in the absence of nitrate. Forms filaments, which form bundles in the presence of GTP. Has both GTPase and ATPase activity; GTPase is 2.5 time more efficient. Has no activity on CTP or TTP. May be involved in redox control for magnetite crystallization (Probable). Mild overexpression causes cell elongation. May recruit other proteins (MamX, MamY and MamZ and possibly Mms6) to a complex required for biomineralization (Probable); Belongs to the FtsZ family. | mamZ (mamH-like); Required for correct biomineralization of the magnetosome; probably converts and then transports some form of iron. It is partially functionally redundant with MamH. May function with MamX, MamY amd Mms6 in biomineralization (Probable). Despite its strong similarity to MsrQ (AC V6EX82) this protein does not genetically interact with bona fide MsrP (AC V6F0A4), which is encoded elsewhere in the genome. | 0.944 |
| mamX | ftsZ-like | MGMSRv2__2322 | MGMSRv2__2324 | Magnetosome protein MamX; Required for correct biomineralization of the magnetosome, maybe via redox control. May function with MamY, MamZ amd Mms6 in biomineralization (Probable). | ftsZ-like; Required for synthesis of single-domain magnetite particles and magnetosomes, especially in the absence of nitrate. Forms filaments, which form bundles in the presence of GTP. Has both GTPase and ATPase activity; GTPase is 2.5 time more efficient. Has no activity on CTP or TTP. May be involved in redox control for magnetite crystallization (Probable). Mild overexpression causes cell elongation. May recruit other proteins (MamX, MamY and MamZ and possibly Mms6) to a complex required for biomineralization (Probable); Belongs to the FtsZ family. | 0.946 |
| mamX | mamY | MGMSRv2__2322 | MGMSRv2__2321 | Magnetosome protein MamX; Required for correct biomineralization of the magnetosome, maybe via redox control. May function with MamY, MamZ amd Mms6 in biomineralization (Probable). | mamY; May be involved in constriction of the cell inner membrane to form mature magnetosomes. Binds cardiolipin and liposomes (By similarity). May function with MamX, MamZ amd Mms6 in biomineralization (Probable). | 0.916 |
| mamX | mamZ | MGMSRv2__2322 | MGMSRv2__2323 | Magnetosome protein MamX; Required for correct biomineralization of the magnetosome, maybe via redox control. May function with MamY, MamZ amd Mms6 in biomineralization (Probable). | mamZ (mamH-like); Required for correct biomineralization of the magnetosome; probably converts and then transports some form of iron. It is partially functionally redundant with MamH. May function with MamX, MamY amd Mms6 in biomineralization (Probable). Despite its strong similarity to MsrQ (AC V6EX82) this protein does not genetically interact with bona fide MsrP (AC V6F0A4), which is encoded elsewhere in the genome. | 0.967 |
| mamY | ftsZ-like | MGMSRv2__2321 | MGMSRv2__2324 | mamY; May be involved in constriction of the cell inner membrane to form mature magnetosomes. Binds cardiolipin and liposomes (By similarity). May function with MamX, MamZ amd Mms6 in biomineralization (Probable). | ftsZ-like; Required for synthesis of single-domain magnetite particles and magnetosomes, especially in the absence of nitrate. Forms filaments, which form bundles in the presence of GTP. Has both GTPase and ATPase activity; GTPase is 2.5 time more efficient. Has no activity on CTP or TTP. May be involved in redox control for magnetite crystallization (Probable). Mild overexpression causes cell elongation. May recruit other proteins (MamX, MamY and MamZ and possibly Mms6) to a complex required for biomineralization (Probable); Belongs to the FtsZ family. | 0.904 |
| mamY | mamX | MGMSRv2__2321 | MGMSRv2__2322 | mamY; May be involved in constriction of the cell inner membrane to form mature magnetosomes. Binds cardiolipin and liposomes (By similarity). May function with MamX, MamZ amd Mms6 in biomineralization (Probable). | Magnetosome protein MamX; Required for correct biomineralization of the magnetosome, maybe via redox control. May function with MamY, MamZ amd Mms6 in biomineralization (Probable). | 0.916 |
| mamY | mamZ | MGMSRv2__2321 | MGMSRv2__2323 | mamY; May be involved in constriction of the cell inner membrane to form mature magnetosomes. Binds cardiolipin and liposomes (By similarity). May function with MamX, MamZ amd Mms6 in biomineralization (Probable). | mamZ (mamH-like); Required for correct biomineralization of the magnetosome; probably converts and then transports some form of iron. It is partially functionally redundant with MamH. May function with MamX, MamY amd Mms6 in biomineralization (Probable). Despite its strong similarity to MsrQ (AC V6EX82) this protein does not genetically interact with bona fide MsrP (AC V6F0A4), which is encoded elsewhere in the genome. | 0.916 |
| mamZ | ftsZ-like | MGMSRv2__2323 | MGMSRv2__2324 | mamZ (mamH-like); Required for correct biomineralization of the magnetosome; probably converts and then transports some form of iron. It is partially functionally redundant with MamH. May function with MamX, MamY amd Mms6 in biomineralization (Probable). Despite its strong similarity to MsrQ (AC V6EX82) this protein does not genetically interact with bona fide MsrP (AC V6F0A4), which is encoded elsewhere in the genome. | ftsZ-like; Required for synthesis of single-domain magnetite particles and magnetosomes, especially in the absence of nitrate. Forms filaments, which form bundles in the presence of GTP. Has both GTPase and ATPase activity; GTPase is 2.5 time more efficient. Has no activity on CTP or TTP. May be involved in redox control for magnetite crystallization (Probable). Mild overexpression causes cell elongation. May recruit other proteins (MamX, MamY and MamZ and possibly Mms6) to a complex required for biomineralization (Probable); Belongs to the FtsZ family. | 0.944 |
| mamZ | mamX | MGMSRv2__2323 | MGMSRv2__2322 | mamZ (mamH-like); Required for correct biomineralization of the magnetosome; probably converts and then transports some form of iron. It is partially functionally redundant with MamH. May function with MamX, MamY amd Mms6 in biomineralization (Probable). Despite its strong similarity to MsrQ (AC V6EX82) this protein does not genetically interact with bona fide MsrP (AC V6F0A4), which is encoded elsewhere in the genome. | Magnetosome protein MamX; Required for correct biomineralization of the magnetosome, maybe via redox control. May function with MamY, MamZ amd Mms6 in biomineralization (Probable). | 0.967 |
| mamZ | mamY | MGMSRv2__2323 | MGMSRv2__2321 | mamZ (mamH-like); Required for correct biomineralization of the magnetosome; probably converts and then transports some form of iron. It is partially functionally redundant with MamH. May function with MamX, MamY amd Mms6 in biomineralization (Probable). Despite its strong similarity to MsrQ (AC V6EX82) this protein does not genetically interact with bona fide MsrP (AC V6F0A4), which is encoded elsewhere in the genome. | mamY; May be involved in constriction of the cell inner membrane to form mature magnetosomes. Binds cardiolipin and liposomes (By similarity). May function with MamX, MamZ amd Mms6 in biomineralization (Probable). | 0.916 |