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YUC3 protein (Arabidopsis thaliana) - STRING interaction network
"YUC3" - YUCCA 3 in Arabidopsis thaliana
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second shell of interactors
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proteins of unknown 3D structure
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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
YUC3YUCCA 3; Involved in auxin biosynthesis. Belongs to the set of redundant YUCCA genes probably responsible for auxin biosynthesis in roots (437 aa)    
Predicted Functional Partners:
TAA1
Tryptophan aminotransferase; L-tryptophan aminotransferase involved in auxin (IAA) biosynthesis. Can convert L-tryptophan and pyruvate to indole-3- pyruvic acid (IPA) and alanine. Catalyzes the first step in IPA branch of the auxin biosynthetic pathway. Required for auxin production to initiate multiple change in growth in response to environmental and developmental cues. It is also active with phenylalanine, tyrosine, leucine, alanine, methionine and glutamine. Both TAA1 and TAR2 are required for maintaining proper auxin levels in roots, while TAA1, TAR1 and TAR2 are required for prop [...] (391 aa)
         
  0.961
TAR1
Tryptophan aminotransferase related 1; Probably involved in auxin production. TAA1, TAR1 and TAR2 are required for proper embryo patterning (388 aa)
         
  0.959
TAR2
Tryptophan aminotransferase related 2; Involved in auxin production. Both TAA1 and TAR2 are required for maintaining proper auxin levels in roots, while TAA1, TAR1 and TAR2 are required for proper embryo patterning. Involved in the maintenance of the root stem cell niches (440 aa)
     
 
  0.947
AAO1
Aldehyde oxidase 1; In higher plants aldehyde oxidases (AO) appear to be homo- and heterodimeric assemblies of AO subunits with probably different physiological functions. AO-alpha may be involved in the biosynthesis of auxin, and in biosynthesis of abscisic acid (ABA) in seeds. In vitro, AO-alpha uses heptaldehyde, protocatechualdehyde, benzaldehyde, indole-3-aldehyde (IAld), indole-3-acetaldehyde (IAAld), cinnamaldehyde and citral as substrates; AO-beta uses IAAld, IAld and naphtaldehyde as substrates (1368 aa)
       
  0.925
NIT1
Nitrilase 1; Can convert indole-3-acetonitrile to the plant hormone indole-3-acetic acid (346 aa)
       
  0.917
NIT3
Nitrilase 3; Can convert indole-3-acetonitrile to the plant hormone indole-3-acetic acid (346 aa)
       
  0.908
NIT2
Nitrilase 2; Can convert indole-3-acetonitrile to the plant hormone indole-3-acetic acid (339 aa)
       
  0.908
AAO2
Aldehyde oxidase 2; In higher plant aldehyde oxidases (AO) appear to be homo- and heterodimeric assemblies of AO subunits with probably different physiological functions. In vitro, AO-gamma uses heptaldehyde, benzaldehyde, naphthaldehyde and cinnamaldehyde as substrates; AO-beta uses indole-3-acetaldehyde (IAAld), indole-3- aldehyde (IAld) and naphtaldehyde; the AAO2-AAO3 dimer uses abscisic aldehyde (1321 aa)
       
    0.906
ALDH3F1
Aldehyde dehydrogenase 3F1 (484 aa)
         
  0.905
ALDH3I1
Aldehyde dehydrogenase 3I1; Involved in oxidative stress tolerance by detoxifying reactive aldehydes derived from lipid peroxidation. Medium- to long-chain saturated aldehydes are preferred substrates, while the short-chain aldehyde propanal is a weak substrate. Can use both NAD(+) and NADP(+), but the coenzyme preference is substrate dependent (550 aa)
         
  0.905
Your Current Organism:
Arabidopsis thaliana
NCBI taxonomy Id: 3702
Other names: A. thaliana, Arabidopsis thaliana, Arabidopsis thaliana (L.) Heynh., mouse-ear cress, thale cress, thale-cress
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