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ABUW_2281 protein (Acinetobacter baumannii) - STRING interaction network
"ABUW_2281" - Bifunctional aldehyde dehydrogenase/enoyl-CoA hydratase in Acinetobacter baumannii
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query proteins and first shell of interactors
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second shell of interactors
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proteins of unknown 3D structure
filled nodes:
some 3D structure is known or predicted
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Known Interactions
from curated databases
experimentally determined
Predicted Interactions
gene neighborhood
gene fusions
gene co-occurrence
Others
textmining
co-expression
protein homology
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[Homology]
Score
ABUW_2281Bifunctional aldehyde dehydrogenase/enoyl-CoA hydratase; Derived by automated computational analysis using gene prediction method- Protein Homology (146 aa)    
Predicted Functional Partners:
AB895_3241
Multidrug ABC transporter ATP-binding protein; Derived by automated computational analysis using gene prediction method- Protein Homology (615 aa)
   
        0.849
AIL77532.1
AraC family transcriptional regulator; Derived by automated computational analysis using gene prediction method- Protein Homology (341 aa)
 
          0.654
gcvH
Glycine cleavage system H protein; The glycine cleavage system catalyzes the degradation of glycine. The H protein shuttles the methylamine group of glycine from the P protein to the T protein (124 aa)
   
        0.493
iscA
Iron-binding protein IscA; Is able to transfer iron-sulfur clusters to apo- ferredoxin. Multiple cycles of [2Fe2S] cluster formation and transfer are observed, suggesting that IscA acts catalytically. Recruits intracellular free iron so as to provide iron for the assembly of transient iron-sulfur cluster in IscU in the presence of IscS, L-cysteine and the thioredoxin reductase system (106 aa)
     
   
  0.484
fnlB
Capsular biosynthesis protein; Derived by automated computational analysis using gene prediction method- Protein Homology (369 aa)
   
   
  0.480
fadB
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 (717 aa)
   
   
  0.479
AIL79158.1
3-hydroxyacyl-CoA dehydrogenase; Derived by automated computational analysis using gene prediction method- Protein Homology (711 aa)
   
   
  0.479
fabG_2
3-oxoacyl-[acyl-carrier-protein] reductase FabG; Derived by automated computational analysis using gene prediction method- Protein Homology (244 aa)
   
 
  0.464
fabG
3-oxoacyl-ACP reductase; Catalyzes the first of the two reduction steps in the elongation cycle of fatty acid synthesis; Derived by automated computational analysis using gene prediction method- Protein Homology (463 aa)
   
 
  0.464
AIL80275.1
ACP synthase; Derived by automated computational analysis using gene prediction method- Protein Homology (218 aa)
   
     
  0.459
Your Current Organism:
Acinetobacter baumannii
NCBI taxonomy Id: 470
Other names: A. baumannii, ATCC 19606, Acinetobacter baumannii, Acinetobacter genomosp. 2, Acinetobacter genomospecies 2, Bacterium anitratum, CCUG 19096, CIP 70.34, DSM 30007, JCM 6841, NCCB 85021, NCTC 12156
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