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 proteins in your network
Browse interactions in tabular form:
| node1 | node2 | node1 accession | node2 accession | node1 annotation | node2 annotation | score |
| mamL | mamM | MGMSRv2__2376 | MGMSRv2__2375 | Magnetosome protein MamL; Involved in magnetite crystal maturation, but not in magnetosome vesicle tubulation or formation. One of 7 genes (mamLQBIEMO) able to induce magnetosome membrane biogenesis; coexpression of mamLQRBIEMO in a deletion of the 17 gene mamAB operon restores magnetosome vesicle formation but not magnetite biosynthesis. | Magnetosome protein MamM, containing Cation efflux protein; Essential for magnetosome formation; required for stable accumulation of MamB. May nucleate iron crystal formation (Probable). Probably binds and transports iron. Binds divalent cations, possibly up to 3 Zn(2+) per dimer in vitro, probably iron in vivo (Probable). One of 7 genes (mamLQBIEMO) able to induce magnetosome membrane biogenesis; coexpression of mamLQRBIEMO in a deletion of the 17 gene mamAB operon restores magnetosome vesicle formation but not magnetite biosynthesis. | 0.953 |
| mamL | mamN | MGMSRv2__2376 | MGMSRv2__2374 | Magnetosome protein MamL; Involved in magnetite crystal maturation, but not in magnetosome vesicle tubulation or formation. One of 7 genes (mamLQBIEMO) able to induce magnetosome membrane biogenesis; coexpression of mamLQRBIEMO in a deletion of the 17 gene mamAB operon restores magnetosome vesicle formation but not magnetite biosynthesis. | Magnetosome protein MamN, containing Divalent ion symporter domain; Plays a role in biomineralization; might regulate pH in the magnetosome; Belongs to the arsenite-antimonite (ArsB) efflux (TC 2.A.45) family. | 0.939 |
| mamL | mamO | MGMSRv2__2376 | MGMSRv2__2373 | Magnetosome protein MamL; Involved in magnetite crystal maturation, but not in magnetosome vesicle tubulation or formation. One of 7 genes (mamLQBIEMO) able to induce magnetosome membrane biogenesis; coexpression of mamLQRBIEMO in a deletion of the 17 gene mamAB operon restores magnetosome vesicle formation but not magnetite biosynthesis. | Probable membrane transporter protein MamO; Plays 2 roles; promotes magnetite nucleation/formation and activates the MamE protease (By similarity). Despite its near conservation of a protease-like sequence, this is probably not a protease (By similarity). Required in conjunction with MamP for proteolysis of at least MamE, itself and MamP (By similarity). May transport a solute that controls MamE's protease activity. May place individual iron atoms into the magnetite lattice (By similarity). One of 7 genes (mamLQBIEMO) able to induce magnetosome membrane biogenesis; coexpression of mamL [...] | 0.941 |
| mamL | mamP | MGMSRv2__2376 | MGMSRv2__2372 | Magnetosome protein MamL; Involved in magnetite crystal maturation, but not in magnetosome vesicle tubulation or formation. One of 7 genes (mamLQBIEMO) able to induce magnetosome membrane biogenesis; coexpression of mamLQRBIEMO in a deletion of the 17 gene mamAB operon restores magnetosome vesicle formation but not magnetite biosynthesis. | Magnetosome protein MamP, containing PDZ-like domain; Involved in redox-control of magnetite formation (By similarity). Oxidizes Fe(2+) at alkaline pH; successively forms ferrihydrite (Fe(3+)(2)O(3) 0.5 H(2)O) then magnetite (Fe(3)O(4)) from an Fe(2+) solution (By similarity); Belongs to the magnetosome MamP family. | 0.933 |
| mamM | mamL | MGMSRv2__2375 | MGMSRv2__2376 | Magnetosome protein MamM, containing Cation efflux protein; Essential for magnetosome formation; required for stable accumulation of MamB. May nucleate iron crystal formation (Probable). Probably binds and transports iron. Binds divalent cations, possibly up to 3 Zn(2+) per dimer in vitro, probably iron in vivo (Probable). One of 7 genes (mamLQBIEMO) able to induce magnetosome membrane biogenesis; coexpression of mamLQRBIEMO in a deletion of the 17 gene mamAB operon restores magnetosome vesicle formation but not magnetite biosynthesis. | Magnetosome protein MamL; Involved in magnetite crystal maturation, but not in magnetosome vesicle tubulation or formation. One of 7 genes (mamLQBIEMO) able to induce magnetosome membrane biogenesis; coexpression of mamLQRBIEMO in a deletion of the 17 gene mamAB operon restores magnetosome vesicle formation but not magnetite biosynthesis. | 0.953 |
| mamM | mamN | MGMSRv2__2375 | MGMSRv2__2374 | Magnetosome protein MamM, containing Cation efflux protein; Essential for magnetosome formation; required for stable accumulation of MamB. May nucleate iron crystal formation (Probable). Probably binds and transports iron. Binds divalent cations, possibly up to 3 Zn(2+) per dimer in vitro, probably iron in vivo (Probable). One of 7 genes (mamLQBIEMO) able to induce magnetosome membrane biogenesis; coexpression of mamLQRBIEMO in a deletion of the 17 gene mamAB operon restores magnetosome vesicle formation but not magnetite biosynthesis. | Magnetosome protein MamN, containing Divalent ion symporter domain; Plays a role in biomineralization; might regulate pH in the magnetosome; Belongs to the arsenite-antimonite (ArsB) efflux (TC 2.A.45) family. | 0.977 |
| mamM | mamO | MGMSRv2__2375 | MGMSRv2__2373 | Magnetosome protein MamM, containing Cation efflux protein; Essential for magnetosome formation; required for stable accumulation of MamB. May nucleate iron crystal formation (Probable). Probably binds and transports iron. Binds divalent cations, possibly up to 3 Zn(2+) per dimer in vitro, probably iron in vivo (Probable). One of 7 genes (mamLQBIEMO) able to induce magnetosome membrane biogenesis; coexpression of mamLQRBIEMO in a deletion of the 17 gene mamAB operon restores magnetosome vesicle formation but not magnetite biosynthesis. | Probable membrane transporter protein MamO; Plays 2 roles; promotes magnetite nucleation/formation and activates the MamE protease (By similarity). Despite its near conservation of a protease-like sequence, this is probably not a protease (By similarity). Required in conjunction with MamP for proteolysis of at least MamE, itself and MamP (By similarity). May transport a solute that controls MamE's protease activity. May place individual iron atoms into the magnetite lattice (By similarity). One of 7 genes (mamLQBIEMO) able to induce magnetosome membrane biogenesis; coexpression of mamL [...] | 0.971 |
| mamM | mamP | MGMSRv2__2375 | MGMSRv2__2372 | Magnetosome protein MamM, containing Cation efflux protein; Essential for magnetosome formation; required for stable accumulation of MamB. May nucleate iron crystal formation (Probable). Probably binds and transports iron. Binds divalent cations, possibly up to 3 Zn(2+) per dimer in vitro, probably iron in vivo (Probable). One of 7 genes (mamLQBIEMO) able to induce magnetosome membrane biogenesis; coexpression of mamLQRBIEMO in a deletion of the 17 gene mamAB operon restores magnetosome vesicle formation but not magnetite biosynthesis. | Magnetosome protein MamP, containing PDZ-like domain; Involved in redox-control of magnetite formation (By similarity). Oxidizes Fe(2+) at alkaline pH; successively forms ferrihydrite (Fe(3+)(2)O(3) 0.5 H(2)O) then magnetite (Fe(3)O(4)) from an Fe(2+) solution (By similarity); Belongs to the magnetosome MamP family. | 0.942 |
| mamN | mamL | MGMSRv2__2374 | MGMSRv2__2376 | Magnetosome protein MamN, containing Divalent ion symporter domain; Plays a role in biomineralization; might regulate pH in the magnetosome; Belongs to the arsenite-antimonite (ArsB) efflux (TC 2.A.45) family. | Magnetosome protein MamL; Involved in magnetite crystal maturation, but not in magnetosome vesicle tubulation or formation. One of 7 genes (mamLQBIEMO) able to induce magnetosome membrane biogenesis; coexpression of mamLQRBIEMO in a deletion of the 17 gene mamAB operon restores magnetosome vesicle formation but not magnetite biosynthesis. | 0.939 |
| mamN | mamM | MGMSRv2__2374 | MGMSRv2__2375 | Magnetosome protein MamN, containing Divalent ion symporter domain; Plays a role in biomineralization; might regulate pH in the magnetosome; Belongs to the arsenite-antimonite (ArsB) efflux (TC 2.A.45) family. | Magnetosome protein MamM, containing Cation efflux protein; Essential for magnetosome formation; required for stable accumulation of MamB. May nucleate iron crystal formation (Probable). Probably binds and transports iron. Binds divalent cations, possibly up to 3 Zn(2+) per dimer in vitro, probably iron in vivo (Probable). One of 7 genes (mamLQBIEMO) able to induce magnetosome membrane biogenesis; coexpression of mamLQRBIEMO in a deletion of the 17 gene mamAB operon restores magnetosome vesicle formation but not magnetite biosynthesis. | 0.977 |
| mamN | mamO | MGMSRv2__2374 | MGMSRv2__2373 | Magnetosome protein MamN, containing Divalent ion symporter domain; Plays a role in biomineralization; might regulate pH in the magnetosome; Belongs to the arsenite-antimonite (ArsB) efflux (TC 2.A.45) family. | Probable membrane transporter protein MamO; Plays 2 roles; promotes magnetite nucleation/formation and activates the MamE protease (By similarity). Despite its near conservation of a protease-like sequence, this is probably not a protease (By similarity). Required in conjunction with MamP for proteolysis of at least MamE, itself and MamP (By similarity). May transport a solute that controls MamE's protease activity. May place individual iron atoms into the magnetite lattice (By similarity). One of 7 genes (mamLQBIEMO) able to induce magnetosome membrane biogenesis; coexpression of mamL [...] | 0.965 |
| mamN | mamP | MGMSRv2__2374 | MGMSRv2__2372 | Magnetosome protein MamN, containing Divalent ion symporter domain; Plays a role in biomineralization; might regulate pH in the magnetosome; Belongs to the arsenite-antimonite (ArsB) efflux (TC 2.A.45) family. | Magnetosome protein MamP, containing PDZ-like domain; Involved in redox-control of magnetite formation (By similarity). Oxidizes Fe(2+) at alkaline pH; successively forms ferrihydrite (Fe(3+)(2)O(3) 0.5 H(2)O) then magnetite (Fe(3)O(4)) from an Fe(2+) solution (By similarity); Belongs to the magnetosome MamP family. | 0.936 |
| mamO | mamL | MGMSRv2__2373 | MGMSRv2__2376 | Probable membrane transporter protein MamO; Plays 2 roles; promotes magnetite nucleation/formation and activates the MamE protease (By similarity). Despite its near conservation of a protease-like sequence, this is probably not a protease (By similarity). Required in conjunction with MamP for proteolysis of at least MamE, itself and MamP (By similarity). May transport a solute that controls MamE's protease activity. May place individual iron atoms into the magnetite lattice (By similarity). One of 7 genes (mamLQBIEMO) able to induce magnetosome membrane biogenesis; coexpression of mamL [...] | Magnetosome protein MamL; Involved in magnetite crystal maturation, but not in magnetosome vesicle tubulation or formation. One of 7 genes (mamLQBIEMO) able to induce magnetosome membrane biogenesis; coexpression of mamLQRBIEMO in a deletion of the 17 gene mamAB operon restores magnetosome vesicle formation but not magnetite biosynthesis. | 0.941 |
| mamO | mamM | MGMSRv2__2373 | MGMSRv2__2375 | Probable membrane transporter protein MamO; Plays 2 roles; promotes magnetite nucleation/formation and activates the MamE protease (By similarity). Despite its near conservation of a protease-like sequence, this is probably not a protease (By similarity). Required in conjunction with MamP for proteolysis of at least MamE, itself and MamP (By similarity). May transport a solute that controls MamE's protease activity. May place individual iron atoms into the magnetite lattice (By similarity). One of 7 genes (mamLQBIEMO) able to induce magnetosome membrane biogenesis; coexpression of mamL [...] | Magnetosome protein MamM, containing Cation efflux protein; Essential for magnetosome formation; required for stable accumulation of MamB. May nucleate iron crystal formation (Probable). Probably binds and transports iron. Binds divalent cations, possibly up to 3 Zn(2+) per dimer in vitro, probably iron in vivo (Probable). One of 7 genes (mamLQBIEMO) able to induce magnetosome membrane biogenesis; coexpression of mamLQRBIEMO in a deletion of the 17 gene mamAB operon restores magnetosome vesicle formation but not magnetite biosynthesis. | 0.971 |
| mamO | mamN | MGMSRv2__2373 | MGMSRv2__2374 | Probable membrane transporter protein MamO; Plays 2 roles; promotes magnetite nucleation/formation and activates the MamE protease (By similarity). Despite its near conservation of a protease-like sequence, this is probably not a protease (By similarity). Required in conjunction with MamP for proteolysis of at least MamE, itself and MamP (By similarity). May transport a solute that controls MamE's protease activity. May place individual iron atoms into the magnetite lattice (By similarity). One of 7 genes (mamLQBIEMO) able to induce magnetosome membrane biogenesis; coexpression of mamL [...] | Magnetosome protein MamN, containing Divalent ion symporter domain; Plays a role in biomineralization; might regulate pH in the magnetosome; Belongs to the arsenite-antimonite (ArsB) efflux (TC 2.A.45) family. | 0.965 |
| mamO | mamP | MGMSRv2__2373 | MGMSRv2__2372 | Probable membrane transporter protein MamO; Plays 2 roles; promotes magnetite nucleation/formation and activates the MamE protease (By similarity). Despite its near conservation of a protease-like sequence, this is probably not a protease (By similarity). Required in conjunction with MamP for proteolysis of at least MamE, itself and MamP (By similarity). May transport a solute that controls MamE's protease activity. May place individual iron atoms into the magnetite lattice (By similarity). One of 7 genes (mamLQBIEMO) able to induce magnetosome membrane biogenesis; coexpression of mamL [...] | Magnetosome protein MamP, containing PDZ-like domain; Involved in redox-control of magnetite formation (By similarity). Oxidizes Fe(2+) at alkaline pH; successively forms ferrihydrite (Fe(3+)(2)O(3) 0.5 H(2)O) then magnetite (Fe(3)O(4)) from an Fe(2+) solution (By similarity); Belongs to the magnetosome MamP family. | 0.986 |
| mamP | mamL | MGMSRv2__2372 | MGMSRv2__2376 | Magnetosome protein MamP, containing PDZ-like domain; Involved in redox-control of magnetite formation (By similarity). Oxidizes Fe(2+) at alkaline pH; successively forms ferrihydrite (Fe(3+)(2)O(3) 0.5 H(2)O) then magnetite (Fe(3)O(4)) from an Fe(2+) solution (By similarity); Belongs to the magnetosome MamP family. | Magnetosome protein MamL; Involved in magnetite crystal maturation, but not in magnetosome vesicle tubulation or formation. One of 7 genes (mamLQBIEMO) able to induce magnetosome membrane biogenesis; coexpression of mamLQRBIEMO in a deletion of the 17 gene mamAB operon restores magnetosome vesicle formation but not magnetite biosynthesis. | 0.933 |
| mamP | mamM | MGMSRv2__2372 | MGMSRv2__2375 | Magnetosome protein MamP, containing PDZ-like domain; Involved in redox-control of magnetite formation (By similarity). Oxidizes Fe(2+) at alkaline pH; successively forms ferrihydrite (Fe(3+)(2)O(3) 0.5 H(2)O) then magnetite (Fe(3)O(4)) from an Fe(2+) solution (By similarity); Belongs to the magnetosome MamP family. | Magnetosome protein MamM, containing Cation efflux protein; Essential for magnetosome formation; required for stable accumulation of MamB. May nucleate iron crystal formation (Probable). Probably binds and transports iron. Binds divalent cations, possibly up to 3 Zn(2+) per dimer in vitro, probably iron in vivo (Probable). One of 7 genes (mamLQBIEMO) able to induce magnetosome membrane biogenesis; coexpression of mamLQRBIEMO in a deletion of the 17 gene mamAB operon restores magnetosome vesicle formation but not magnetite biosynthesis. | 0.942 |
| mamP | mamN | MGMSRv2__2372 | MGMSRv2__2374 | Magnetosome protein MamP, containing PDZ-like domain; Involved in redox-control of magnetite formation (By similarity). Oxidizes Fe(2+) at alkaline pH; successively forms ferrihydrite (Fe(3+)(2)O(3) 0.5 H(2)O) then magnetite (Fe(3)O(4)) from an Fe(2+) solution (By similarity); Belongs to the magnetosome MamP family. | Magnetosome protein MamN, containing Divalent ion symporter domain; Plays a role in biomineralization; might regulate pH in the magnetosome; Belongs to the arsenite-antimonite (ArsB) efflux (TC 2.A.45) family. | 0.936 |
| mamP | mamO | MGMSRv2__2372 | MGMSRv2__2373 | Magnetosome protein MamP, containing PDZ-like domain; Involved in redox-control of magnetite formation (By similarity). Oxidizes Fe(2+) at alkaline pH; successively forms ferrihydrite (Fe(3+)(2)O(3) 0.5 H(2)O) then magnetite (Fe(3)O(4)) from an Fe(2+) solution (By similarity); Belongs to the magnetosome MamP family. | Probable membrane transporter protein MamO; Plays 2 roles; promotes magnetite nucleation/formation and activates the MamE protease (By similarity). Despite its near conservation of a protease-like sequence, this is probably not a protease (By similarity). Required in conjunction with MamP for proteolysis of at least MamE, itself and MamP (By similarity). May transport a solute that controls MamE's protease activity. May place individual iron atoms into the magnetite lattice (By similarity). One of 7 genes (mamLQBIEMO) able to induce magnetosome membrane biogenesis; coexpression of mamL [...] | 0.986 |