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 |
| CAZ96844.1 | CAZ96845.1 | ZOBELLIA_2694 | ZOBELLIA_2695 | Putative protein. | Hypothetical membrane protein; Contains a C-terminal transmembrane segment; Localized in the cytoplasmic membrane; Hypothetical protein. | 0.453 |
| CAZ96844.1 | hsdM1 | ZOBELLIA_2694 | ZOBELLIA_2697 | Putative protein. | The type I restriction enzyme, M and S subunits together form a N-6 adenine methyltransferase (MTase) that methylates the amino group at the C-6 position of a adenine residue in a hemimethylated bipartite DNA recognition sequence, in order to prevent the host from digesting its own genome via its restriction enzyme. It acts as a maintenance MTase modifying the DNA so that both strands become methylated. If the recognition sequence is unmethylated, in the presence of the R subunit, the complex can also act as an endonuclease, binding to the same target sequence but cutting the DNA some [...] | 0.453 |
| CAZ96844.1 | hsdR1 | ZOBELLIA_2694 | ZOBELLIA_2698 | Putative protein. | The type I restriction enzyme, Subunit R recognize specific short DNA sequences and cleaves at sites remote (1000 to 5000 bp) from the recognition sequence to give random double-stranded fragments with terminal 5'-phosphates. It is required for both endonuclease and ATPase activities, but not for modification; The Type I restriction and modification enzymes are complex, multifunctional systems composed of three polypeptides R, M and S and which require ATP, S-adenosyl methionine and magnesium as cofactors. In addition to their endonucleolytic and methylase activities, they are potent D [...] | 0.421 |
| CAZ96844.1 | hsdS1 | ZOBELLIA_2694 | ZOBELLIA_2696 | Putative protein. | The Type I restriction enzyme S subunit dictates DNA sequences specificity; Contains two DNA recognition domains, each specifying recognition of one of the two defined components of the bipartite DNA target sequence; The type I restriction enzyme, M and S subunits together form a N-6 adenine methyltransferase (MTase) that methylates the amino group at the C-6 position of a adenine residue in a hemimethylated DNA recognition sequence, in order to prevent the host from digesting its own genome via its restriction enzyme; Localized in the cytoplasm; High confidence in function and specificity. | 0.453 |
| CAZ96845.1 | CAZ96844.1 | ZOBELLIA_2695 | ZOBELLIA_2694 | Hypothetical membrane protein; Contains a C-terminal transmembrane segment; Localized in the cytoplasmic membrane; Hypothetical protein. | Putative protein. | 0.453 |
| CAZ96845.1 | hsdM1 | ZOBELLIA_2695 | ZOBELLIA_2697 | Hypothetical membrane protein; Contains a C-terminal transmembrane segment; Localized in the cytoplasmic membrane; Hypothetical protein. | The type I restriction enzyme, M and S subunits together form a N-6 adenine methyltransferase (MTase) that methylates the amino group at the C-6 position of a adenine residue in a hemimethylated bipartite DNA recognition sequence, in order to prevent the host from digesting its own genome via its restriction enzyme. It acts as a maintenance MTase modifying the DNA so that both strands become methylated. If the recognition sequence is unmethylated, in the presence of the R subunit, the complex can also act as an endonuclease, binding to the same target sequence but cutting the DNA some [...] | 0.773 |
| CAZ96845.1 | hsdR1 | ZOBELLIA_2695 | ZOBELLIA_2698 | Hypothetical membrane protein; Contains a C-terminal transmembrane segment; Localized in the cytoplasmic membrane; Hypothetical protein. | The type I restriction enzyme, Subunit R recognize specific short DNA sequences and cleaves at sites remote (1000 to 5000 bp) from the recognition sequence to give random double-stranded fragments with terminal 5'-phosphates. It is required for both endonuclease and ATPase activities, but not for modification; The Type I restriction and modification enzymes are complex, multifunctional systems composed of three polypeptides R, M and S and which require ATP, S-adenosyl methionine and magnesium as cofactors. In addition to their endonucleolytic and methylase activities, they are potent D [...] | 0.709 |
| CAZ96845.1 | hsdS1 | ZOBELLIA_2695 | ZOBELLIA_2696 | Hypothetical membrane protein; Contains a C-terminal transmembrane segment; Localized in the cytoplasmic membrane; Hypothetical protein. | The Type I restriction enzyme S subunit dictates DNA sequences specificity; Contains two DNA recognition domains, each specifying recognition of one of the two defined components of the bipartite DNA target sequence; The type I restriction enzyme, M and S subunits together form a N-6 adenine methyltransferase (MTase) that methylates the amino group at the C-6 position of a adenine residue in a hemimethylated DNA recognition sequence, in order to prevent the host from digesting its own genome via its restriction enzyme; Localized in the cytoplasm; High confidence in function and specificity. | 0.773 |
| hsdM1 | CAZ96844.1 | ZOBELLIA_2697 | ZOBELLIA_2694 | The type I restriction enzyme, M and S subunits together form a N-6 adenine methyltransferase (MTase) that methylates the amino group at the C-6 position of a adenine residue in a hemimethylated bipartite DNA recognition sequence, in order to prevent the host from digesting its own genome via its restriction enzyme. It acts as a maintenance MTase modifying the DNA so that both strands become methylated. If the recognition sequence is unmethylated, in the presence of the R subunit, the complex can also act as an endonuclease, binding to the same target sequence but cutting the DNA some [...] | Putative protein. | 0.453 |
| hsdM1 | CAZ96845.1 | ZOBELLIA_2697 | ZOBELLIA_2695 | The type I restriction enzyme, M and S subunits together form a N-6 adenine methyltransferase (MTase) that methylates the amino group at the C-6 position of a adenine residue in a hemimethylated bipartite DNA recognition sequence, in order to prevent the host from digesting its own genome via its restriction enzyme. It acts as a maintenance MTase modifying the DNA so that both strands become methylated. If the recognition sequence is unmethylated, in the presence of the R subunit, the complex can also act as an endonuclease, binding to the same target sequence but cutting the DNA some [...] | Hypothetical membrane protein; Contains a C-terminal transmembrane segment; Localized in the cytoplasmic membrane; Hypothetical protein. | 0.773 |
| hsdM1 | hsdR1 | ZOBELLIA_2697 | ZOBELLIA_2698 | The type I restriction enzyme, M and S subunits together form a N-6 adenine methyltransferase (MTase) that methylates the amino group at the C-6 position of a adenine residue in a hemimethylated bipartite DNA recognition sequence, in order to prevent the host from digesting its own genome via its restriction enzyme. It acts as a maintenance MTase modifying the DNA so that both strands become methylated. If the recognition sequence is unmethylated, in the presence of the R subunit, the complex can also act as an endonuclease, binding to the same target sequence but cutting the DNA some [...] | The type I restriction enzyme, Subunit R recognize specific short DNA sequences and cleaves at sites remote (1000 to 5000 bp) from the recognition sequence to give random double-stranded fragments with terminal 5'-phosphates. It is required for both endonuclease and ATPase activities, but not for modification; The Type I restriction and modification enzymes are complex, multifunctional systems composed of three polypeptides R, M and S and which require ATP, S-adenosyl methionine and magnesium as cofactors. In addition to their endonucleolytic and methylase activities, they are potent D [...] | 0.975 |
| hsdM1 | hsdS1 | ZOBELLIA_2697 | ZOBELLIA_2696 | The type I restriction enzyme, M and S subunits together form a N-6 adenine methyltransferase (MTase) that methylates the amino group at the C-6 position of a adenine residue in a hemimethylated bipartite DNA recognition sequence, in order to prevent the host from digesting its own genome via its restriction enzyme. It acts as a maintenance MTase modifying the DNA so that both strands become methylated. If the recognition sequence is unmethylated, in the presence of the R subunit, the complex can also act as an endonuclease, binding to the same target sequence but cutting the DNA some [...] | The Type I restriction enzyme S subunit dictates DNA sequences specificity; Contains two DNA recognition domains, each specifying recognition of one of the two defined components of the bipartite DNA target sequence; The type I restriction enzyme, M and S subunits together form a N-6 adenine methyltransferase (MTase) that methylates the amino group at the C-6 position of a adenine residue in a hemimethylated DNA recognition sequence, in order to prevent the host from digesting its own genome via its restriction enzyme; Localized in the cytoplasm; High confidence in function and specificity. | 0.996 |
| hsdR1 | CAZ96844.1 | ZOBELLIA_2698 | ZOBELLIA_2694 | The type I restriction enzyme, Subunit R recognize specific short DNA sequences and cleaves at sites remote (1000 to 5000 bp) from the recognition sequence to give random double-stranded fragments with terminal 5'-phosphates. It is required for both endonuclease and ATPase activities, but not for modification; The Type I restriction and modification enzymes are complex, multifunctional systems composed of three polypeptides R, M and S and which require ATP, S-adenosyl methionine and magnesium as cofactors. In addition to their endonucleolytic and methylase activities, they are potent D [...] | Putative protein. | 0.421 |
| hsdR1 | CAZ96845.1 | ZOBELLIA_2698 | ZOBELLIA_2695 | The type I restriction enzyme, Subunit R recognize specific short DNA sequences and cleaves at sites remote (1000 to 5000 bp) from the recognition sequence to give random double-stranded fragments with terminal 5'-phosphates. It is required for both endonuclease and ATPase activities, but not for modification; The Type I restriction and modification enzymes are complex, multifunctional systems composed of three polypeptides R, M and S and which require ATP, S-adenosyl methionine and magnesium as cofactors. In addition to their endonucleolytic and methylase activities, they are potent D [...] | Hypothetical membrane protein; Contains a C-terminal transmembrane segment; Localized in the cytoplasmic membrane; Hypothetical protein. | 0.709 |
| hsdR1 | hsdM1 | ZOBELLIA_2698 | ZOBELLIA_2697 | The type I restriction enzyme, Subunit R recognize specific short DNA sequences and cleaves at sites remote (1000 to 5000 bp) from the recognition sequence to give random double-stranded fragments with terminal 5'-phosphates. It is required for both endonuclease and ATPase activities, but not for modification; The Type I restriction and modification enzymes are complex, multifunctional systems composed of three polypeptides R, M and S and which require ATP, S-adenosyl methionine and magnesium as cofactors. In addition to their endonucleolytic and methylase activities, they are potent D [...] | The type I restriction enzyme, M and S subunits together form a N-6 adenine methyltransferase (MTase) that methylates the amino group at the C-6 position of a adenine residue in a hemimethylated bipartite DNA recognition sequence, in order to prevent the host from digesting its own genome via its restriction enzyme. It acts as a maintenance MTase modifying the DNA so that both strands become methylated. If the recognition sequence is unmethylated, in the presence of the R subunit, the complex can also act as an endonuclease, binding to the same target sequence but cutting the DNA some [...] | 0.975 |
| hsdR1 | hsdS1 | ZOBELLIA_2698 | ZOBELLIA_2696 | The type I restriction enzyme, Subunit R recognize specific short DNA sequences and cleaves at sites remote (1000 to 5000 bp) from the recognition sequence to give random double-stranded fragments with terminal 5'-phosphates. It is required for both endonuclease and ATPase activities, but not for modification; The Type I restriction and modification enzymes are complex, multifunctional systems composed of three polypeptides R, M and S and which require ATP, S-adenosyl methionine and magnesium as cofactors. In addition to their endonucleolytic and methylase activities, they are potent D [...] | The Type I restriction enzyme S subunit dictates DNA sequences specificity; Contains two DNA recognition domains, each specifying recognition of one of the two defined components of the bipartite DNA target sequence; The type I restriction enzyme, M and S subunits together form a N-6 adenine methyltransferase (MTase) that methylates the amino group at the C-6 position of a adenine residue in a hemimethylated DNA recognition sequence, in order to prevent the host from digesting its own genome via its restriction enzyme; Localized in the cytoplasm; High confidence in function and specificity. | 0.959 |
| hsdS1 | CAZ96844.1 | ZOBELLIA_2696 | ZOBELLIA_2694 | The Type I restriction enzyme S subunit dictates DNA sequences specificity; Contains two DNA recognition domains, each specifying recognition of one of the two defined components of the bipartite DNA target sequence; The type I restriction enzyme, M and S subunits together form a N-6 adenine methyltransferase (MTase) that methylates the amino group at the C-6 position of a adenine residue in a hemimethylated DNA recognition sequence, in order to prevent the host from digesting its own genome via its restriction enzyme; Localized in the cytoplasm; High confidence in function and specificity. | Putative protein. | 0.453 |
| hsdS1 | CAZ96845.1 | ZOBELLIA_2696 | ZOBELLIA_2695 | The Type I restriction enzyme S subunit dictates DNA sequences specificity; Contains two DNA recognition domains, each specifying recognition of one of the two defined components of the bipartite DNA target sequence; The type I restriction enzyme, M and S subunits together form a N-6 adenine methyltransferase (MTase) that methylates the amino group at the C-6 position of a adenine residue in a hemimethylated DNA recognition sequence, in order to prevent the host from digesting its own genome via its restriction enzyme; Localized in the cytoplasm; High confidence in function and specificity. | Hypothetical membrane protein; Contains a C-terminal transmembrane segment; Localized in the cytoplasmic membrane; Hypothetical protein. | 0.773 |
| hsdS1 | hsdM1 | ZOBELLIA_2696 | ZOBELLIA_2697 | The Type I restriction enzyme S subunit dictates DNA sequences specificity; Contains two DNA recognition domains, each specifying recognition of one of the two defined components of the bipartite DNA target sequence; The type I restriction enzyme, M and S subunits together form a N-6 adenine methyltransferase (MTase) that methylates the amino group at the C-6 position of a adenine residue in a hemimethylated DNA recognition sequence, in order to prevent the host from digesting its own genome via its restriction enzyme; Localized in the cytoplasm; High confidence in function and specificity. | The type I restriction enzyme, M and S subunits together form a N-6 adenine methyltransferase (MTase) that methylates the amino group at the C-6 position of a adenine residue in a hemimethylated bipartite DNA recognition sequence, in order to prevent the host from digesting its own genome via its restriction enzyme. It acts as a maintenance MTase modifying the DNA so that both strands become methylated. If the recognition sequence is unmethylated, in the presence of the R subunit, the complex can also act as an endonuclease, binding to the same target sequence but cutting the DNA some [...] | 0.996 |
| hsdS1 | hsdR1 | ZOBELLIA_2696 | ZOBELLIA_2698 | The Type I restriction enzyme S subunit dictates DNA sequences specificity; Contains two DNA recognition domains, each specifying recognition of one of the two defined components of the bipartite DNA target sequence; The type I restriction enzyme, M and S subunits together form a N-6 adenine methyltransferase (MTase) that methylates the amino group at the C-6 position of a adenine residue in a hemimethylated DNA recognition sequence, in order to prevent the host from digesting its own genome via its restriction enzyme; Localized in the cytoplasm; High confidence in function and specificity. | The type I restriction enzyme, Subunit R recognize specific short DNA sequences and cleaves at sites remote (1000 to 5000 bp) from the recognition sequence to give random double-stranded fragments with terminal 5'-phosphates. It is required for both endonuclease and ATPase activities, but not for modification; The Type I restriction and modification enzymes are complex, multifunctional systems composed of three polypeptides R, M and S and which require ATP, S-adenosyl methionine and magnesium as cofactors. In addition to their endonucleolytic and methylase activities, they are potent D [...] | 0.959 |