Screen Resolution:     
Welcome to HRGRN
A Graph Search-Empowered Integrative Database of Arabidopsis Signaling Transduction, Metabolism and Gene Regulation Networks   
Location:  Home > Details for node AT5G63000
Type: Protein GRN ID: np38589 Name:
Annotation: Mitochondrial import inner membrane translocase subunit Tim17/Tim22/Tim23 family protein
Gene Locus: AT5G63000
Gene Expression (Affy ATH1 probeset): 247411_at    
Graph Customization
   
Choose color for highlight:  
Display edge: validated and predicted
Display node/edge prompt:
Layout:
 as format     
Data Filter
 Protein modification
 Protein-protein interaction
        also include predicted relationship
 Compound-protein interaction
 TF-target gene regulation
 Small RNA-target regulation
        also include predicted relationship
 Carrier and transported molecule
 Catalytic chemical reaction
 Co-expressed gene pair
        with mutual information value >

  Ignore nodes having > relationships
 
Relationship type:  protein modification     catalytic chemical reaction     protein-protein interaction    
compound-protein interaction     TF-target gene regulation     small RNA-target regulation    
co-expressed gene pair     carrier and transported molecule     family/complex and member
Relationship evidence:  Solid line: validated          Dashed line: predicted
Relationship direction: Arrow: positive          T shape: negative          None arrow: unknown or n/a
Hormone association: Thicker line: hormone related relationship         : hormone related Node
Node type:  Transcription factor or transcriptional regulator       Compound       Kinase
 Small regulatory RNA (miRNA & ta-siRNA)       Other nodes
No. Path
2 AT5G63000  --  interacts with  --  AT3G17620
3 AT5G63000  --  interacts with  --  PDLP8
4 AT5G63000  --  interacts with  --  AT3G17620  --  interacts with  --  SETH2
5 AT5G63000  --  interacts with  --  AT3G17620  --  interacts with  --  RHA1A
6 AT5G63000  --  interacts with  --  AT3G17620  --  interacts with  --  SBP1
7 AT5G63000  --  interacts with  --  AT3G17620  --  interacts with  --  DiT2.2
8 AT5G63000  --  interacts with  --  AT3G17620  --  interacts with  --  AT3G03180
9 AT5G63000  --  interacts with  --  AT3G17620  --  interacts with  --  AT4G32120
10 AT5G63000  --  interacts with  --  AT3G17620  --  interacts with  --  CRR23
11 AT5G63000  --  interacts with  --  AT3G17620  --  interacts with  --  AT3G10290
12 AT5G63000  --  interacts with  --  AT3G17620  --  interacts with  --  CYP87A2
13 AT5G63000  --  interacts with  --  AT3G17620  --  interacts with  --  CIPK19; SnRK3.5
14 AT5G63000  --  interacts with  --  AT3G17620  --  interacts with  --  SLAH2
15 AT5G63000  --  interacts with  --  AT3G17620  --  interacts with  --  AT1G14500
16 AT5G63000  --  interacts with  --  AT3G17620  --  interacts with  --  ABCB1/ATPGP1
17 AT5G63000  --  interacts with  --  AT3G17620  --  interacts with  --  AT4G28370
18 AT5G63000  --  interacts with  --  AT3G17620  --  interacts with  --  SBH2
19 AT5G63000  --  interacts with  --  AT3G17620  --  interacts with  --  NIP6; NIP6;1; NLM7
20 AT5G63000  --  interacts with  --  AT3G17620  --  interacts with  --  AT3G02810
21 AT5G63000  --  interacts with  --  AT3G17620  --  interacts with  --  ATLPP1; ATPAP1; LPP1; PAP1
22 AT5G63000  --  interacts with  --  PDLP8  --  interacts with  --  AT5G03345
23 AT5G63000  --  interacts with  --  PDLP8  --  interacts with  --  AT1G16170
24 AT5G63000  --  interacts with  --  PDLP8  --  interacts with  --  AT3G03210
25 AT5G63000  --  interacts with  --  PDLP8  --  interacts with  --  AT4; ATIPS2
26 AT5G63000  --  interacts with  --  PDLP8  --  interacts with  --  AT1G14990
27 AT5G63000  --  interacts with  --  PDLP8  --  interacts with  --  AT3G06600
28 AT5G63000  --  interacts with  --  PDLP8  --  interacts with  --  AT5G47180
29 AT5G63000  --  interacts with  --  PDLP8  --  interacts with  --  AT2G16030
30 AT5G63000  --  interacts with  --  PDLP8  --  interacts with  --  AT3G62560
31 AT5G63000  --  interacts with  --  PDLP8  --  interacts with  --  AT4G12590
32 AT5G63000  --  interacts with  --  PDLP8  --  interacts with  --  AT1G14020
33 AT5G63000  --  interacts with  --  PDLP8  --  interacts with  --  AT3G26370
34 AT5G63000  --  interacts with  --  PDLP8  --  interacts with  --  AT4G17430
35 AT5G63000  --  interacts with  --  PDLP8  --  interacts with  --  AT4G01410
36 AT5G63000  --  interacts with  --  PDLP8  --  interacts with  --  AT4G23930
37 AT5G63000  --  interacts with  --  PDLP8  --  interacts with  --  AT2G13290
38 AT5G63000  --  interacts with  --  PDLP8  --  interacts with  --  AT2G28315
39 AT5G63000  --  interacts with  --  PDLP8  --  interacts with  --  CYP71B6
40 AT5G63000  --  interacts with  --  PDLP8  --  interacts with  --  ABCI12
41 AT5G63000  --  interacts with  --  PDLP8  --  interacts with  --  ATFACE-2; ATFACE2; FACE2; RCE1
42 AT5G63000  --  interacts with  --  PDLP8  --  interacts with  --  ATUTR3; UTR3
43 AT5G63000  --  interacts with  --  PDLP8  --  interacts with  --  ATG1; TG1
44 AT5G63000  --  interacts with  --  PDLP8  --  interacts with  --  ATSK42; SK42
45 AT5G63000  --  interacts with  --  PDLP8  --  interacts with  --  NHL1
46 AT5G63000  --  interacts with  --  PDLP8  --  interacts with  --  ATUTR2; UTR2
47 AT5G63000  --  interacts with  --  PDLP8  --  interacts with  --  CYP81D8
48 AT5G63000  --  interacts with  --  PDLP8  --  interacts with  --  AT4G12950
   Funding by the National Science Foundation    Funding by the Oklahoma Center for the Advancement of Science & Technology    Additional funding by the Samuel Roberts Noble Foundation

Copyright © The Zhao Lab

Disclaimer | Contact