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 |
| azo1315 | azo1316 | azo1315 | azo1316 | Conserved hypothetical membrane protein. Homology to blr8071 of B. japonicum of 56% (trembl|Q89BS7). No domains predicted signal peptide probable 6 TMHs; Conserved hypothetical protein. | Putative ATP binding protein; 47% AAA_ATPase.IPR003439; ABC_transporter.IPR008995. Pfam:PF00005; ABC_tran; 1. SMART:SM00382; AAA; 1. non-secretory protein; Function unclear. | 0.968 |
| azo1315 | azo1317 | azo1315 | azo1317 | Conserved hypothetical membrane protein. Homology to blr8071 of B. japonicum of 56% (trembl|Q89BS7). No domains predicted signal peptide probable 6 TMHs; Conserved hypothetical protein. | Conserved hypothetical protein. Homology to CCO1214 of Campylobacter coli of 38% (gi|57168023|ref|ZP_00367162.1|(NBCI ENTREZ)). Has PF07021, Methionine biosynthesis protein MetW;IPR010743; This family consists of several bacterial and one archaeal methionine biosynthesis MetW proteins. Biosynthesis of methionine from homoserine in Pseudomonas putida takes place in three steps. The first step is the acylation of homoserine to yield an acyl-L-homoserine. This reaction is catalysed by the products of the metXW genes and is equivalent to the first step in enterobacteria, gram-positive bact [...] | 0.420 |
| azo1316 | azo1315 | azo1316 | azo1315 | Putative ATP binding protein; 47% AAA_ATPase.IPR003439; ABC_transporter.IPR008995. Pfam:PF00005; ABC_tran; 1. SMART:SM00382; AAA; 1. non-secretory protein; Function unclear. | Conserved hypothetical membrane protein. Homology to blr8071 of B. japonicum of 56% (trembl|Q89BS7). No domains predicted signal peptide probable 6 TMHs; Conserved hypothetical protein. | 0.968 |
| azo1316 | azo1317 | azo1316 | azo1317 | Putative ATP binding protein; 47% AAA_ATPase.IPR003439; ABC_transporter.IPR008995. Pfam:PF00005; ABC_tran; 1. SMART:SM00382; AAA; 1. non-secretory protein; Function unclear. | Conserved hypothetical protein. Homology to CCO1214 of Campylobacter coli of 38% (gi|57168023|ref|ZP_00367162.1|(NBCI ENTREZ)). Has PF07021, Methionine biosynthesis protein MetW;IPR010743; This family consists of several bacterial and one archaeal methionine biosynthesis MetW proteins. Biosynthesis of methionine from homoserine in Pseudomonas putida takes place in three steps. The first step is the acylation of homoserine to yield an acyl-L-homoserine. This reaction is catalysed by the products of the metXW genes and is equivalent to the first step in enterobacteria, gram-positive bact [...] | 0.420 |
| azo1317 | azo1315 | azo1317 | azo1315 | Conserved hypothetical protein. Homology to CCO1214 of Campylobacter coli of 38% (gi|57168023|ref|ZP_00367162.1|(NBCI ENTREZ)). Has PF07021, Methionine biosynthesis protein MetW;IPR010743; This family consists of several bacterial and one archaeal methionine biosynthesis MetW proteins. Biosynthesis of methionine from homoserine in Pseudomonas putida takes place in three steps. The first step is the acylation of homoserine to yield an acyl-L-homoserine. This reaction is catalysed by the products of the metXW genes and is equivalent to the first step in enterobacteria, gram-positive bact [...] | Conserved hypothetical membrane protein. Homology to blr8071 of B. japonicum of 56% (trembl|Q89BS7). No domains predicted signal peptide probable 6 TMHs; Conserved hypothetical protein. | 0.420 |
| azo1317 | azo1316 | azo1317 | azo1316 | Conserved hypothetical protein. Homology to CCO1214 of Campylobacter coli of 38% (gi|57168023|ref|ZP_00367162.1|(NBCI ENTREZ)). Has PF07021, Methionine biosynthesis protein MetW;IPR010743; This family consists of several bacterial and one archaeal methionine biosynthesis MetW proteins. Biosynthesis of methionine from homoserine in Pseudomonas putida takes place in three steps. The first step is the acylation of homoserine to yield an acyl-L-homoserine. This reaction is catalysed by the products of the metXW genes and is equivalent to the first step in enterobacteria, gram-positive bact [...] | Putative ATP binding protein; 47% AAA_ATPase.IPR003439; ABC_transporter.IPR008995. Pfam:PF00005; ABC_tran; 1. SMART:SM00382; AAA; 1. non-secretory protein; Function unclear. | 0.420 |
| azo1317 | azo3595 | azo1317 | azo3595 | Conserved hypothetical protein. Homology to CCO1214 of Campylobacter coli of 38% (gi|57168023|ref|ZP_00367162.1|(NBCI ENTREZ)). Has PF07021, Methionine biosynthesis protein MetW;IPR010743; This family consists of several bacterial and one archaeal methionine biosynthesis MetW proteins. Biosynthesis of methionine from homoserine in Pseudomonas putida takes place in three steps. The first step is the acylation of homoserine to yield an acyl-L-homoserine. This reaction is catalysed by the products of the metXW genes and is equivalent to the first step in enterobacteria, gram-positive bact [...] | Hypothetical protein predicted by Glimmer/Critica. | 0.606 |
| azo1317 | flaG | azo1317 | azo2705 | Conserved hypothetical protein. Homology to CCO1214 of Campylobacter coli of 38% (gi|57168023|ref|ZP_00367162.1|(NBCI ENTREZ)). Has PF07021, Methionine biosynthesis protein MetW;IPR010743; This family consists of several bacterial and one archaeal methionine biosynthesis MetW proteins. Biosynthesis of methionine from homoserine in Pseudomonas putida takes place in three steps. The first step is the acylation of homoserine to yield an acyl-L-homoserine. This reaction is catalysed by the products of the metXW genes and is equivalent to the first step in enterobacteria, gram-positive bact [...] | Probable flagellar protein; Protein flaG. Although these proteins are known to be important for flagellar their exact function is unknown TREMBL:Q82UA2: 56% identity, 79% similarity. InterPro:IPR005186; FlaG. Pfam:PF03646; FlaG L12: ribosomal protein L7/L12 Nonsecretory protein with low signal peptide probability (0.041): SignalP predicted Transmembrane helices 0; High confidence in function and specificity. | 0.529 |
| azo1317 | gcvP | azo1317 | azo1285 | Conserved hypothetical protein. Homology to CCO1214 of Campylobacter coli of 38% (gi|57168023|ref|ZP_00367162.1|(NBCI ENTREZ)). Has PF07021, Methionine biosynthesis protein MetW;IPR010743; This family consists of several bacterial and one archaeal methionine biosynthesis MetW proteins. Biosynthesis of methionine from homoserine in Pseudomonas putida takes place in three steps. The first step is the acylation of homoserine to yield an acyl-L-homoserine. This reaction is catalysed by the products of the metXW genes and is equivalent to the first step in enterobacteria, gram-positive bact [...] | Glycine cleavage system P-protein; The glycine cleavage system catalyzes the degradation of glycine. The P protein binds the alpha-amino group of glycine through its pyridoxal phosphate cofactor; CO(2) is released and the remaining methylamine moiety is then transferred to the lipoamide cofactor of the H protein; Belongs to the GcvP family. | 0.694 |
| azo3595 | azo1317 | azo3595 | azo1317 | Hypothetical protein predicted by Glimmer/Critica. | Conserved hypothetical protein. Homology to CCO1214 of Campylobacter coli of 38% (gi|57168023|ref|ZP_00367162.1|(NBCI ENTREZ)). Has PF07021, Methionine biosynthesis protein MetW;IPR010743; This family consists of several bacterial and one archaeal methionine biosynthesis MetW proteins. Biosynthesis of methionine from homoserine in Pseudomonas putida takes place in three steps. The first step is the acylation of homoserine to yield an acyl-L-homoserine. This reaction is catalysed by the products of the metXW genes and is equivalent to the first step in enterobacteria, gram-positive bact [...] | 0.606 |
| azo3595 | gcvP | azo3595 | azo1285 | Hypothetical protein predicted by Glimmer/Critica. | Glycine cleavage system P-protein; The glycine cleavage system catalyzes the degradation of glycine. The P protein binds the alpha-amino group of glycine through its pyridoxal phosphate cofactor; CO(2) is released and the remaining methylamine moiety is then transferred to the lipoamide cofactor of the H protein; Belongs to the GcvP family. | 0.938 |
| flaG | azo1317 | azo2705 | azo1317 | Probable flagellar protein; Protein flaG. Although these proteins are known to be important for flagellar their exact function is unknown TREMBL:Q82UA2: 56% identity, 79% similarity. InterPro:IPR005186; FlaG. Pfam:PF03646; FlaG L12: ribosomal protein L7/L12 Nonsecretory protein with low signal peptide probability (0.041): SignalP predicted Transmembrane helices 0; High confidence in function and specificity. | Conserved hypothetical protein. Homology to CCO1214 of Campylobacter coli of 38% (gi|57168023|ref|ZP_00367162.1|(NBCI ENTREZ)). Has PF07021, Methionine biosynthesis protein MetW;IPR010743; This family consists of several bacterial and one archaeal methionine biosynthesis MetW proteins. Biosynthesis of methionine from homoserine in Pseudomonas putida takes place in three steps. The first step is the acylation of homoserine to yield an acyl-L-homoserine. This reaction is catalysed by the products of the metXW genes and is equivalent to the first step in enterobacteria, gram-positive bact [...] | 0.529 |
| gcvP | azo1317 | azo1285 | azo1317 | Glycine cleavage system P-protein; The glycine cleavage system catalyzes the degradation of glycine. The P protein binds the alpha-amino group of glycine through its pyridoxal phosphate cofactor; CO(2) is released and the remaining methylamine moiety is then transferred to the lipoamide cofactor of the H protein; Belongs to the GcvP family. | Conserved hypothetical protein. Homology to CCO1214 of Campylobacter coli of 38% (gi|57168023|ref|ZP_00367162.1|(NBCI ENTREZ)). Has PF07021, Methionine biosynthesis protein MetW;IPR010743; This family consists of several bacterial and one archaeal methionine biosynthesis MetW proteins. Biosynthesis of methionine from homoserine in Pseudomonas putida takes place in three steps. The first step is the acylation of homoserine to yield an acyl-L-homoserine. This reaction is catalysed by the products of the metXW genes and is equivalent to the first step in enterobacteria, gram-positive bact [...] | 0.694 |
| gcvP | azo3595 | azo1285 | azo3595 | Glycine cleavage system P-protein; The glycine cleavage system catalyzes the degradation of glycine. The P protein binds the alpha-amino group of glycine through its pyridoxal phosphate cofactor; CO(2) is released and the remaining methylamine moiety is then transferred to the lipoamide cofactor of the H protein; Belongs to the GcvP family. | Hypothetical protein predicted by Glimmer/Critica. | 0.938 |