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
fadEacyl-CoA dehydrogenase; Functions in fatty acid oxidation; converts acyl-CoA and FAD to FADH2 and delta2-enoyl-CoA; Derived by automated computational analysis using gene prediction method: Protein Homology. (815 aa)    
Predicted Functional Partners:
fadJ
Multifunctional fatty acid oxidation complex subunit alpha; Catalyzes the formation of a hydroxyacyl-CoA by addition of water on enoyl-CoA. Also exhibits 3-hydroxyacyl-CoA epimerase and 3- hydroxyacyl-CoA dehydrogenase activities; In the N-terminal section; belongs to the enoyl-CoA hydratase/isomerase family.
 
 0.999
fadB
Multifunctional fatty acid oxidation complex subunit alpha; Involved in the aerobic and anaerobic degradation of long- chain fatty acids via beta-oxidation cycle. Catalyzes the formation of 3-oxoacyl-CoA from enoyl-CoA via L-3-hydroxyacyl-CoA. It can also use D-3-hydroxyacyl-CoA and cis-3-enoyl-CoA as substrate. In the N-terminal section; belongs to the enoyl-CoA hydratase/isomerase family.
 
 0.999
fadI
3-ketoacyl-CoA thiolase; Catalyzes the final step of fatty acid oxidation in which acetyl-CoA is released and the CoA ester of a fatty acid two carbons shorter is formed.
 
 0.995
fadA
3-ketoacyl-CoA thiolase; Catalyzes the final step of fatty acid oxidation in which acetyl-CoA is released and the CoA ester of a fatty acid two carbons shorter is formed.
 
 0.995
nuoD
NADH:ubiquinone oxidoreductase; NDH-1 shuttles electrons from NADH, via FMN and iron-sulfur (Fe-S) centers, to quinones in the respiratory chain. The immediate electron acceptor for the enzyme in this species is believed to be ubiquinone. Couples the redox reaction to proton translocation (for every two electrons transferred, four hydrogen ions are translocated across the cytoplasmic membrane), and thus conserves the redox energy in a proton gradient; In the C-terminal section; belongs to the complex I 49 kDa subunit family.
   
 0.985
echA8
enoyl-CoA hydratase; Regulator of pathogenicity factor RpfF; involved in synthesis of a diffusible signal factor involved in the regulation of extracellular enzymes; Derived by automated computational analysis using gene prediction method: Protein Homology.
 
 0.853
fadD
Long-chain fatty acid--CoA ligase; Activates fatty acids by binding to coenzyme A; Derived by automated computational analysis using gene prediction method: Protein Homology.
 
 
 0.848
ybfF
acyl-CoA esterase; Derived by automated computational analysis using gene prediction method: Protein Homology.
   
 0.838
nifJ
Pyruvate-flavodoxin oxidoreductase; Derived by automated computational analysis using gene prediction method: Protein Homology.
  
 
 0.831
adhE
Acetaldehyde dehydrogenase; Derived by automated computational analysis using gene prediction method: Protein Homology; In the C-terminal section; belongs to the iron-containing alcohol dehydrogenase family.
  
 
 0.766
Your Current Organism:
Yersinia ruckeri
NCBI taxonomy Id: 29486
Other names: ATCC 29473, CCM 6093, CCUG 14190, CDC 2396-61, CIP 82.80, DSM 18506, JCM 15110, JCM 2429, NCIB 2194, NCIMB 2194, NCTC 12986, Y. ruckeri
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