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 |
| CAZ95200.1 | CAZ95567.1 | ZOBELLIA_1143 | ZOBELLIA_1511 | The membrane fusion proteins (MFP) belong to a multidrug efflux pump system that confer the resistance to compounds such as antibiotics, solvents or heavy metals; Proteins of the MFP family function as 'adaptors', connecting a ABC transporters, localized in the cytoplasmic membrane, with a porin or channel localized in outer membrane; The MFP proteins seem to be anchored in the cytoplasmic membrane by a N-terminal transmembrane region; participates to the type I secretion system; Family membership. | These membrane fusion proteins (MFP) belong to a multidrug efflux pump system that confer the resistance to compounds such as antibiotics, solvents or heavy metals; Proteins of the MFP family function as 'adaptors', connecting a ABC transporters, localized in the cytoplasmic membrane, with a porin or channel localized in outer membrane; The MFP proteins seem to be anchored in the cytoplasmique membrane by a N-terminal transmembrane region; Family membership. | 0.900 |
| CAZ95200.1 | CAZ95569.1 | ZOBELLIA_1143 | ZOBELLIA_1513 | The membrane fusion proteins (MFP) belong to a multidrug efflux pump system that confer the resistance to compounds such as antibiotics, solvents or heavy metals; Proteins of the MFP family function as 'adaptors', connecting a ABC transporters, localized in the cytoplasmic membrane, with a porin or channel localized in outer membrane; The MFP proteins seem to be anchored in the cytoplasmic membrane by a N-terminal transmembrane region; participates to the type I secretion system; Family membership. | The outer membrane efflux proteins (OEP) are composed of two repeats of OEP domain to form a trimeric channel continuous, solvent-accessible conduit that spans both the outer membrane and periplasmic space; May be specialized for the signal peptide independent extracellular secretion of a variety of substrates in Gram-negative bacteria (type I secretion system); Signal peptide of lipoprotein cleaved between the residues 21 and 22; Localized in the outer membrane; Family membership. | 0.866 |
| CAZ95200.1 | CAZ95998.1 | ZOBELLIA_1143 | ZOBELLIA_1945 | The membrane fusion proteins (MFP) belong to a multidrug efflux pump system that confer the resistance to compounds such as antibiotics, solvents or heavy metals; Proteins of the MFP family function as 'adaptors', connecting a ABC transporters, localized in the cytoplasmic membrane, with a porin or channel localized in outer membrane; The MFP proteins seem to be anchored in the cytoplasmic membrane by a N-terminal transmembrane region; participates to the type I secretion system; Family membership. | These membrane fusion proteins (MFP) belong to a multidrug efflux pump system that confer the resistance to compounds such as antibiotics, solvents or heavy metals; Proteins of the MFP family function as 'adaptors', connecting a ABC transporters, localized in the cytoplasmic membrane, with a porin or channel localized in outer membrane; The MFP proteins seem to be anchored in the cytoplasmique membrane by a N-terminal transmembrane region; Family membership. | 0.900 |
| CAZ95200.1 | CAZ95999.1 | ZOBELLIA_1143 | ZOBELLIA_1946 | The membrane fusion proteins (MFP) belong to a multidrug efflux pump system that confer the resistance to compounds such as antibiotics, solvents or heavy metals; Proteins of the MFP family function as 'adaptors', connecting a ABC transporters, localized in the cytoplasmic membrane, with a porin or channel localized in outer membrane; The MFP proteins seem to be anchored in the cytoplasmic membrane by a N-terminal transmembrane region; participates to the type I secretion system; Family membership. | The outer membrane efflux proteins (OEP) are composed of two repeats of OEP domain to form a trimeric channel continuous, solvent-accessible conduit that spans both the outer membrane and periplasmic space; May be specialized for the signal peptide independent extracellular secretion of a variety of substrates in Gram-negative bacteria (type I secretion system); Signal peptide cleaved between the residues 19 and 20; Localized in the outer membrane; Family membership. | 0.930 |
| CAZ95200.1 | CAZ97064.1 | ZOBELLIA_1143 | ZOBELLIA_2917 | The membrane fusion proteins (MFP) belong to a multidrug efflux pump system that confer the resistance to compounds such as antibiotics, solvents or heavy metals; Proteins of the MFP family function as 'adaptors', connecting a ABC transporters, localized in the cytoplasmic membrane, with a porin or channel localized in outer membrane; The MFP proteins seem to be anchored in the cytoplasmic membrane by a N-terminal transmembrane region; participates to the type I secretion system; Family membership. | These membrane fusion proteins (MFP) belong to a multidrug efflux pump system that confer the resistance to compounds such as antibiotics, solvents or heavy metals; Proteins of the MFP family function as 'adaptors', connecting a ABC transporters, localized in the cytoplasmic membrane, with a porin or channel localized in outer membrane; The MFP proteins seem to be anchored in the cytoplasmic membrane by a N-terminal transmembrane region; Belongs to the type I secretion system; Family membership. | 0.900 |
| CAZ95200.1 | CAZ98409.1 | ZOBELLIA_1143 | ZOBELLIA_4274 | The membrane fusion proteins (MFP) belong to a multidrug efflux pump system that confer the resistance to compounds such as antibiotics, solvents or heavy metals; Proteins of the MFP family function as 'adaptors', connecting a ABC transporters, localized in the cytoplasmic membrane, with a porin or channel localized in outer membrane; The MFP proteins seem to be anchored in the cytoplasmic membrane by a N-terminal transmembrane region; participates to the type I secretion system; Family membership. | The outer membrane efflux proteins (OEP) are composed of two repeats of OEP domain to form a trimeric channel continuous, solvent-accessible conduit that spans both the outer membrane and periplasmic space; May be specialized for the signal peptide independent extracellular secretion of a variety of substrates in Gram-negative bacteria; Signal peptide cleaved between the residues 18 and 19; Localized in the outer membrane; Belongs to the type I secretion system; Family membership. | 0.930 |
| CAZ95200.1 | macB | ZOBELLIA_1143 | ZOBELLIA_4277 | The membrane fusion proteins (MFP) belong to a multidrug efflux pump system that confer the resistance to compounds such as antibiotics, solvents or heavy metals; Proteins of the MFP family function as 'adaptors', connecting a ABC transporters, localized in the cytoplasmic membrane, with a porin or channel localized in outer membrane; The MFP proteins seem to be anchored in the cytoplasmic membrane by a N-terminal transmembrane region; participates to the type I secretion system; Family membership. | Macrolide-specific ABC exporter, permease component; ABC (ATP-binding cassette) membrane domain possibly involved in the macrolides resistance; Contains four transmembrane segments; Belongs to the ABC transporter family; Localized in the cytoplasmic membrane; Family membership. | 0.400 |
| CAZ95567.1 | CAZ95200.1 | ZOBELLIA_1511 | ZOBELLIA_1143 | These membrane fusion proteins (MFP) belong to a multidrug efflux pump system that confer the resistance to compounds such as antibiotics, solvents or heavy metals; Proteins of the MFP family function as 'adaptors', connecting a ABC transporters, localized in the cytoplasmic membrane, with a porin or channel localized in outer membrane; The MFP proteins seem to be anchored in the cytoplasmique membrane by a N-terminal transmembrane region; Family membership. | The membrane fusion proteins (MFP) belong to a multidrug efflux pump system that confer the resistance to compounds such as antibiotics, solvents or heavy metals; Proteins of the MFP family function as 'adaptors', connecting a ABC transporters, localized in the cytoplasmic membrane, with a porin or channel localized in outer membrane; The MFP proteins seem to be anchored in the cytoplasmic membrane by a N-terminal transmembrane region; participates to the type I secretion system; Family membership. | 0.900 |
| CAZ95567.1 | CAZ95569.1 | ZOBELLIA_1511 | ZOBELLIA_1513 | These membrane fusion proteins (MFP) belong to a multidrug efflux pump system that confer the resistance to compounds such as antibiotics, solvents or heavy metals; Proteins of the MFP family function as 'adaptors', connecting a ABC transporters, localized in the cytoplasmic membrane, with a porin or channel localized in outer membrane; The MFP proteins seem to be anchored in the cytoplasmique membrane by a N-terminal transmembrane region; Family membership. | The outer membrane efflux proteins (OEP) are composed of two repeats of OEP domain to form a trimeric channel continuous, solvent-accessible conduit that spans both the outer membrane and periplasmic space; May be specialized for the signal peptide independent extracellular secretion of a variety of substrates in Gram-negative bacteria (type I secretion system); Signal peptide of lipoprotein cleaved between the residues 21 and 22; Localized in the outer membrane; Family membership. | 0.989 |
| CAZ95567.1 | CAZ95998.1 | ZOBELLIA_1511 | ZOBELLIA_1945 | These membrane fusion proteins (MFP) belong to a multidrug efflux pump system that confer the resistance to compounds such as antibiotics, solvents or heavy metals; Proteins of the MFP family function as 'adaptors', connecting a ABC transporters, localized in the cytoplasmic membrane, with a porin or channel localized in outer membrane; The MFP proteins seem to be anchored in the cytoplasmique membrane by a N-terminal transmembrane region; Family membership. | These membrane fusion proteins (MFP) belong to a multidrug efflux pump system that confer the resistance to compounds such as antibiotics, solvents or heavy metals; Proteins of the MFP family function as 'adaptors', connecting a ABC transporters, localized in the cytoplasmic membrane, with a porin or channel localized in outer membrane; The MFP proteins seem to be anchored in the cytoplasmique membrane by a N-terminal transmembrane region; Family membership. | 0.914 |
| CAZ95567.1 | CAZ95999.1 | ZOBELLIA_1511 | ZOBELLIA_1946 | These membrane fusion proteins (MFP) belong to a multidrug efflux pump system that confer the resistance to compounds such as antibiotics, solvents or heavy metals; Proteins of the MFP family function as 'adaptors', connecting a ABC transporters, localized in the cytoplasmic membrane, with a porin or channel localized in outer membrane; The MFP proteins seem to be anchored in the cytoplasmique membrane by a N-terminal transmembrane region; Family membership. | The outer membrane efflux proteins (OEP) are composed of two repeats of OEP domain to form a trimeric channel continuous, solvent-accessible conduit that spans both the outer membrane and periplasmic space; May be specialized for the signal peptide independent extracellular secretion of a variety of substrates in Gram-negative bacteria (type I secretion system); Signal peptide cleaved between the residues 19 and 20; Localized in the outer membrane; Family membership. | 0.931 |
| CAZ95567.1 | CAZ97064.1 | ZOBELLIA_1511 | ZOBELLIA_2917 | These membrane fusion proteins (MFP) belong to a multidrug efflux pump system that confer the resistance to compounds such as antibiotics, solvents or heavy metals; Proteins of the MFP family function as 'adaptors', connecting a ABC transporters, localized in the cytoplasmic membrane, with a porin or channel localized in outer membrane; The MFP proteins seem to be anchored in the cytoplasmique membrane by a N-terminal transmembrane region; Family membership. | These membrane fusion proteins (MFP) belong to a multidrug efflux pump system that confer the resistance to compounds such as antibiotics, solvents or heavy metals; Proteins of the MFP family function as 'adaptors', connecting a ABC transporters, localized in the cytoplasmic membrane, with a porin or channel localized in outer membrane; The MFP proteins seem to be anchored in the cytoplasmic membrane by a N-terminal transmembrane region; Belongs to the type I secretion system; Family membership. | 0.918 |
| CAZ95567.1 | CAZ98409.1 | ZOBELLIA_1511 | ZOBELLIA_4274 | These membrane fusion proteins (MFP) belong to a multidrug efflux pump system that confer the resistance to compounds such as antibiotics, solvents or heavy metals; Proteins of the MFP family function as 'adaptors', connecting a ABC transporters, localized in the cytoplasmic membrane, with a porin or channel localized in outer membrane; The MFP proteins seem to be anchored in the cytoplasmique membrane by a N-terminal transmembrane region; Family membership. | The outer membrane efflux proteins (OEP) are composed of two repeats of OEP domain to form a trimeric channel continuous, solvent-accessible conduit that spans both the outer membrane and periplasmic space; May be specialized for the signal peptide independent extracellular secretion of a variety of substrates in Gram-negative bacteria; Signal peptide cleaved between the residues 18 and 19; Localized in the outer membrane; Belongs to the type I secretion system; Family membership. | 0.940 |
| CAZ95567.1 | macB | ZOBELLIA_1511 | ZOBELLIA_4277 | These membrane fusion proteins (MFP) belong to a multidrug efflux pump system that confer the resistance to compounds such as antibiotics, solvents or heavy metals; Proteins of the MFP family function as 'adaptors', connecting a ABC transporters, localized in the cytoplasmic membrane, with a porin or channel localized in outer membrane; The MFP proteins seem to be anchored in the cytoplasmique membrane by a N-terminal transmembrane region; Family membership. | Macrolide-specific ABC exporter, permease component; ABC (ATP-binding cassette) membrane domain possibly involved in the macrolides resistance; Contains four transmembrane segments; Belongs to the ABC transporter family; Localized in the cytoplasmic membrane; Family membership. | 0.471 |
| CAZ95569.1 | CAZ95200.1 | ZOBELLIA_1513 | ZOBELLIA_1143 | The outer membrane efflux proteins (OEP) are composed of two repeats of OEP domain to form a trimeric channel continuous, solvent-accessible conduit that spans both the outer membrane and periplasmic space; May be specialized for the signal peptide independent extracellular secretion of a variety of substrates in Gram-negative bacteria (type I secretion system); Signal peptide of lipoprotein cleaved between the residues 21 and 22; Localized in the outer membrane; Family membership. | The membrane fusion proteins (MFP) belong to a multidrug efflux pump system that confer the resistance to compounds such as antibiotics, solvents or heavy metals; Proteins of the MFP family function as 'adaptors', connecting a ABC transporters, localized in the cytoplasmic membrane, with a porin or channel localized in outer membrane; The MFP proteins seem to be anchored in the cytoplasmic membrane by a N-terminal transmembrane region; participates to the type I secretion system; Family membership. | 0.866 |
| CAZ95569.1 | CAZ95567.1 | ZOBELLIA_1513 | ZOBELLIA_1511 | The outer membrane efflux proteins (OEP) are composed of two repeats of OEP domain to form a trimeric channel continuous, solvent-accessible conduit that spans both the outer membrane and periplasmic space; May be specialized for the signal peptide independent extracellular secretion of a variety of substrates in Gram-negative bacteria (type I secretion system); Signal peptide of lipoprotein cleaved between the residues 21 and 22; Localized in the outer membrane; Family membership. | These membrane fusion proteins (MFP) belong to a multidrug efflux pump system that confer the resistance to compounds such as antibiotics, solvents or heavy metals; Proteins of the MFP family function as 'adaptors', connecting a ABC transporters, localized in the cytoplasmic membrane, with a porin or channel localized in outer membrane; The MFP proteins seem to be anchored in the cytoplasmique membrane by a N-terminal transmembrane region; Family membership. | 0.989 |
| CAZ95569.1 | CAZ95998.1 | ZOBELLIA_1513 | ZOBELLIA_1945 | The outer membrane efflux proteins (OEP) are composed of two repeats of OEP domain to form a trimeric channel continuous, solvent-accessible conduit that spans both the outer membrane and periplasmic space; May be specialized for the signal peptide independent extracellular secretion of a variety of substrates in Gram-negative bacteria (type I secretion system); Signal peptide of lipoprotein cleaved between the residues 21 and 22; Localized in the outer membrane; Family membership. | These membrane fusion proteins (MFP) belong to a multidrug efflux pump system that confer the resistance to compounds such as antibiotics, solvents or heavy metals; Proteins of the MFP family function as 'adaptors', connecting a ABC transporters, localized in the cytoplasmic membrane, with a porin or channel localized in outer membrane; The MFP proteins seem to be anchored in the cytoplasmique membrane by a N-terminal transmembrane region; Family membership. | 0.860 |
| CAZ95569.1 | CAZ95999.1 | ZOBELLIA_1513 | ZOBELLIA_1946 | The outer membrane efflux proteins (OEP) are composed of two repeats of OEP domain to form a trimeric channel continuous, solvent-accessible conduit that spans both the outer membrane and periplasmic space; May be specialized for the signal peptide independent extracellular secretion of a variety of substrates in Gram-negative bacteria (type I secretion system); Signal peptide of lipoprotein cleaved between the residues 21 and 22; Localized in the outer membrane; Family membership. | The outer membrane efflux proteins (OEP) are composed of two repeats of OEP domain to form a trimeric channel continuous, solvent-accessible conduit that spans both the outer membrane and periplasmic space; May be specialized for the signal peptide independent extracellular secretion of a variety of substrates in Gram-negative bacteria (type I secretion system); Signal peptide cleaved between the residues 19 and 20; Localized in the outer membrane; Family membership. | 0.900 |
| CAZ95569.1 | CAZ97064.1 | ZOBELLIA_1513 | ZOBELLIA_2917 | The outer membrane efflux proteins (OEP) are composed of two repeats of OEP domain to form a trimeric channel continuous, solvent-accessible conduit that spans both the outer membrane and periplasmic space; May be specialized for the signal peptide independent extracellular secretion of a variety of substrates in Gram-negative bacteria (type I secretion system); Signal peptide of lipoprotein cleaved between the residues 21 and 22; Localized in the outer membrane; Family membership. | These membrane fusion proteins (MFP) belong to a multidrug efflux pump system that confer the resistance to compounds such as antibiotics, solvents or heavy metals; Proteins of the MFP family function as 'adaptors', connecting a ABC transporters, localized in the cytoplasmic membrane, with a porin or channel localized in outer membrane; The MFP proteins seem to be anchored in the cytoplasmic membrane by a N-terminal transmembrane region; Belongs to the type I secretion system; Family membership. | 0.965 |
| CAZ95569.1 | CAZ98409.1 | ZOBELLIA_1513 | ZOBELLIA_4274 | The outer membrane efflux proteins (OEP) are composed of two repeats of OEP domain to form a trimeric channel continuous, solvent-accessible conduit that spans both the outer membrane and periplasmic space; May be specialized for the signal peptide independent extracellular secretion of a variety of substrates in Gram-negative bacteria (type I secretion system); Signal peptide of lipoprotein cleaved between the residues 21 and 22; Localized in the outer membrane; Family membership. | The outer membrane efflux proteins (OEP) are composed of two repeats of OEP domain to form a trimeric channel continuous, solvent-accessible conduit that spans both the outer membrane and periplasmic space; May be specialized for the signal peptide independent extracellular secretion of a variety of substrates in Gram-negative bacteria; Signal peptide cleaved between the residues 18 and 19; Localized in the outer membrane; Belongs to the type I secretion system; Family membership. | 0.915 |
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