STRINGSTRING
STRING protein interaction network
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:
Neighborhood
Gene Fusion
Cooccurrence
Coexpression
Experiments
Databases
Textmining
[Homology]
Score
KOX04892.1Urease subunit gamma; Derived by automated computational analysis using gene prediction method: Protein Homology; Belongs to the urease gamma subunit family. (90 aa)    
Predicted Functional Partners:
ureB
Urease subunit beta; Ureases catalyze the hydrolysis of urea into ammonia and carbon dioxide; in Helicobacter pylori and Yersinia enterocolitica the ammonia released plays a key role in bacterial survival by neutralizing acids when colonizing the gastric mucosa; the holoenzyme is composed of 3 UreC (alpha) and 3 UreAB (gamma/beta); in Brucella suis the urease encoded by this operon (one of two urease-encoding operons found in its genome) does not seem to be involved with urease activity, optimum growth, resistance to low-pH killing in-vitro and persistence in-vivo; Derived by automated [...]
 0.999
ureC
Urease subunit alpha; Ureases catalyze the hydrolysis of urea into ammonia and carbon dioxide; in Helicobacter pylori the ammonia released plays a key role in bacterial survival by neutralizing acids when colonizing the gastric mucosa; the holoenzyme is composed of 3 ureC (alpha) and 3 ureAB (gamma/beta) subunits; Derived by automated computational analysis using gene prediction method: Protein Homology.
 0.999
KOX04893.1
Urease subunit beta; Derived by automated computational analysis using gene prediction method: Protein Homology.
 0.999
ureC-2
Urease subunit alpha; Ureases catalyze the hydrolysis of urea into ammonia and carbon dioxide; in Helicobacter pylori the ammonia released plays a key role in bacterial survival by neutralizing acids when colonizing the gastric mucosa; the holoenzyme is composed of 3 ureC (alpha) and 3 ureAB (gamma/beta) subunits; Derived by automated computational analysis using gene prediction method: Protein Homology.
 0.999
ureG-2
Urease accessory protein UreG; Facilitates the functional incorporation of the urease nickel metallocenter. This process requires GTP hydrolysis, probably effectuated by UreG.
 
 
 0.985
ureF-2
Urease accessory protein UreF; Required for maturation of urease via the functional incorporation of the urease nickel metallocenter.
 
 0.977
ureF
Urease accessory protein UreF; Required for maturation of urease via the functional incorporation of the urease nickel metallocenter.
 
 0.975
ureG
Urease accessory protein UreG; Facilitates the functional incorporation of the urease nickel metallocenter. This process requires GTP hydrolysis, probably effectuated by UreG.
 
 
 0.960
ureD-2
Urease accessory protein UreD; Required for maturation of urease via the functional incorporation of the urease nickel metallocenter.
 
 0.954
ureD
Urease accessory protein UreD; Required for maturation of urease via the functional incorporation of the urease nickel metallocenter.
 
 0.950
Your Current Organism:
Micromonospora sp. NRRLB16802
NCBI taxonomy Id: 1415541
Other names: M. sp. NRRL B-16802, Micromonospora sp. NRRL B-16802
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