STRINGSTRING
KKB59756.1 KKB59756.1 KKB59903.1 KKB59903.1 KKB59904.1 KKB59904.1 KKB60036.1 KKB60036.1 KKB60055.1 KKB60055.1 KKB60091.1 KKB60091.1 KKB60139.1 KKB60139.1 KKB59432.1 KKB59432.1 KKB59490.1 KKB59490.1 KKB59491.1 KKB59491.1 KKB59492.1 KKB59492.1 KKB59513.1 KKB59513.1 KKB59522.1 KKB59522.1 KKB59036.1 KKB59036.1 KKB58770.1 KKB58770.1 gyrB gyrB KKB58243.1 KKB58243.1 KKB57631.1 KKB57631.1 KKB57648.1 KKB57648.1 KKB57653.1 KKB57653.1 KKB57816.1 KKB57816.1 KKB57458.1 KKB57458.1 KKB56756.1 KKB56756.1 KKB56761.1 KKB56761.1 KKB56885.1 KKB56885.1 KKB56897.1 KKB56897.1 KKB56997.1 KKB56997.1 KKB57033.1 KKB57033.1 KKB57052.1 KKB57052.1 KKB57129.1 KKB57129.1 KKB57138.1 KKB57138.1 KKB57181.1 KKB57181.1 KKB55985.1 KKB55985.1 KKB56048.1 KKB56048.1 KKB56147.1 KKB56147.1 KKB56242.1 KKB56242.1 KKB56257.1 KKB56257.1 KKB56295.1 KKB56295.1 KKB56332.1 KKB56332.1 KKB56357.1 KKB56357.1 KKB56417.1 KKB56417.1 KKB56421.1 KKB56421.1 KKB56437.1 KKB56437.1 KKB56438.1 KKB56438.1 KKB56439.1 KKB56439.1 KKB56446.1 KKB56446.1 KKB56474.1 KKB56474.1 KKB56511.1 KKB56511.1 KKB54766.1 KKB54766.1 mutL mutL KKB54930.1 KKB54930.1 KKB54585.1 KKB54585.1 KKB54677.1 KKB54677.1 KKB54760.1 KKB54760.1 KKB53356.1 KKB53356.1 KKB53408.1 KKB53408.1 KKB53462.1 KKB53462.1 KKB53469.1 KKB53469.1 KKB53570.1 KKB53570.1 KKB53717.1 KKB53717.1 KKB53726.1 KKB53726.1 KKB53738.1 KKB53738.1 KKB53828.1 KKB53828.1 KKB53273.1 KKB53273.1 KKB50273.1 KKB50273.1 KKB49120.1 KKB49120.1 KKB49122.1 KKB49122.1 KKB48547.1 KKB48547.1 KKB48560.1 KKB48560.1 KKB48587.1 KKB48587.1 KKB48591.1 KKB48591.1 KKB48632.1 KKB48632.1 KKB48639.1 KKB48639.1 KKB48669.1 KKB48669.1 KKB48720.1 KKB48720.1 KKB48835.1 KKB48835.1 KKB48874.1 KKB48874.1 KKB48169.1 KKB48169.1 KKB48097.1 KKB48097.1 KKB47589.1 KKB47589.1 KKB47710.1 KKB47710.1 KKB47221.1 KKB47221.1 KKB45965.1 KKB45965.1 KKB45616.1 KKB45616.1 KKB45659.1 KKB45659.1 KKB45665.1 KKB45665.1
Nodes:
Network nodes represent proteins
splice isoforms or post-translational modifications are collapsed, i.e. each node represents all the proteins produced by a single, protein-coding gene locus.
Node Color
colored nodes:
query proteins and first shell of interactors
white nodes:
second shell of interactors
Node Content
empty nodes:
proteins of unknown 3D structure
filled nodes:
a 3D structure is known or predicted
Edges:
Edges represent protein-protein associations
associations are meant to be specific and meaningful, i.e. proteins jointly contribute to a shared function; this does not necessarily mean they are physically binding to each other.
Known Interactions
from curated databases
experimentally determined
Predicted Interactions
gene neighborhood
gene fusions
gene co-occurrence
Others
textmining
co-expression
protein homology
Your Input:
KKB59756.1Hypothetical protein. (1350 aa)
KKB59903.1Hypothetical protein. (1314 aa)
KKB59904.1Hypothetical protein. (617 aa)
KKB60036.1Hypothetical protein. (440 aa)
KKB60055.1Hypothetical protein. (422 aa)
KKB60091.1Hypothetical protein. (433 aa)
KKB60139.1Hypothetical protein. (691 aa)
KKB59432.1Hypothetical protein. (1322 aa)
KKB59490.1Hypothetical protein. (135 aa)
KKB59491.1Hypothetical protein. (373 aa)
KKB59492.1Hypothetical protein. (278 aa)
KKB59513.1Hypothetical protein. (655 aa)
KKB59522.1Hypothetical protein. (1311 aa)
KKB59036.1Hypothetical protein. (1338 aa)
KKB58770.1Hypothetical protein. (355 aa)
gyrBDNA gyrase, B subunit; A type II topoisomerase that negatively supercoils closed circular double-stranded (ds) DNA in an ATP-dependent manner to modulate DNA topology and maintain chromosomes in an underwound state. Negative supercoiling favors strand separation, and DNA replication, transcription, recombination and repair, all of which involve strand separation. Also able to catalyze the interconversion of other topological isomers of dsDNA rings, including catenanes and knotted rings. Type II topoisomerases break and join 2 DNA strands simultaneously in an ATP-dependent manner. (651 aa)
KKB58243.1Hypothetical protein. (688 aa)
KKB57631.1Hypothetical protein. (440 aa)
KKB57648.1Hypothetical protein. (890 aa)
KKB57653.1Hypothetical protein. (333 aa)
KKB57816.1Hypothetical protein. (1338 aa)
KKB57458.1Hypothetical protein. (1337 aa)
KKB56756.1Hypothetical protein. (1350 aa)
KKB56761.1Hypothetical protein. (1380 aa)
KKB56885.1PAS domain S-box protein. (728 aa)
KKB56897.1Hypothetical protein. (359 aa)
KKB56997.1Hypothetical protein. (686 aa)
KKB57033.1Hypothetical protein. (867 aa)
KKB57052.1Hypothetical protein. (1321 aa)
KKB57129.1Hypothetical protein. (395 aa)
KKB57138.1Hypothetical protein. (1314 aa)
KKB57181.1Hypothetical protein. (1356 aa)
KKB55985.1Hypothetical protein. (621 aa)
KKB56048.1Hypothetical protein. (725 aa)
KKB56147.1Hypothetical protein. (328 aa)
KKB56242.1Hypothetical protein. (636 aa)
KKB56257.1Hypothetical protein. (872 aa)
KKB56295.1Hypothetical protein. (517 aa)
KKB56332.1Hypothetical protein. (452 aa)
KKB56357.1Hypothetical protein. (365 aa)
KKB56417.1Hypothetical protein. (402 aa)
KKB56421.1Hypothetical protein. (450 aa)
KKB56437.1Hypothetical protein. (691 aa)
KKB56438.1Hypothetical protein. (698 aa)
KKB56439.1Hypothetical protein. (721 aa)
KKB56446.1Hypothetical protein. (381 aa)
KKB56474.1Hypothetical protein. (1342 aa)
KKB56511.1Hypothetical protein. (619 aa)
KKB54766.1Hypothetical protein. (385 aa)
mutLDNA mismatch repair protein mutL; This protein is involved in the repair of mismatches in DNA. It is required for dam-dependent methyl-directed DNA mismatch repair. May act as a 'molecular matchmaker', a protein that promotes the formation of a stable complex between two or more DNA-binding proteins in an ATP-dependent manner without itself being part of a final effector complex. (632 aa)
KKB54930.1Hypothetical protein. (473 aa)
KKB54585.1Hypothetical protein. (785 aa)
KKB54677.1Hypothetical protein. (418 aa)
KKB54760.1Hypothetical protein. (116 aa)
KKB53356.1Hypothetical protein. (1360 aa)
KKB53408.1Hypothetical protein. (910 aa)
KKB53462.1Hypothetical protein. (1371 aa)
KKB53469.1Hypothetical protein. (760 aa)
KKB53570.1Hypothetical protein. (791 aa)
KKB53717.1PAS domain S-box protein. (380 aa)
KKB53726.1Hypothetical protein. (414 aa)
KKB53738.1PAS domain S-box protein. (438 aa)
KKB53828.1Hypothetical protein. (588 aa)
KKB53273.1Hypothetical protein. (825 aa)
KKB50273.1Hypothetical protein. (482 aa)
KKB49120.1Hypothetical protein. (683 aa)
KKB49122.1Hypothetical protein. (565 aa)
KKB48547.1PAS domain S-box protein. (552 aa)
KKB48560.1Hypothetical protein. (392 aa)
KKB48587.1Hypothetical protein. (174 aa)
KKB48591.1Hypothetical protein. (140 aa)
KKB48632.1PAS domain S-box protein. (544 aa)
KKB48639.1PAS domain S-box protein. (502 aa)
KKB48669.1Hypothetical protein. (794 aa)
KKB48720.1Hypothetical protein. (597 aa)
KKB48835.1Hypothetical protein. (354 aa)
KKB48874.1Hypothetical protein. (372 aa)
KKB48169.1PAS domain S-box protein. (719 aa)
KKB48097.1Hypothetical protein. (490 aa)
KKB47589.1Hypothetical protein. (508 aa)
KKB47710.1Hypothetical protein. (682 aa)
KKB47221.1Hypothetical protein. (687 aa)
KKB45965.1Hypothetical protein. (385 aa)
KKB45616.1Hypothetical protein. (277 aa)
KKB45659.1Hypothetical protein. (589 aa)
KKB45665.1Hypothetical protein. (576 aa)
Your Current Organism:
Parabacteroides goldsteinii
NCBI taxonomy Id: 927665
Other names: P. goldsteinii DSM 19448 = WAL 12034, Parabacteroides goldsteinii DSM 19448, Parabacteroides goldsteinii DSM 19448 = WAL 12034, Parabacteroides goldsteinii JCM 13446, Parabacteroides goldsteinii WAL 12034, Parabacteroides goldsteinii WAL 12034 = DSM 19448
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