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AtoC DNA-binding transcriptional activator

Synonyms: AtoC, AtoC-phosphorylated
AtoC, also known as antizyme protein (Az), is a protein that regulates processes at the transcriptional and posttranslational levels [5]. It inhibits posttranslationally ornithine decarboxylase (ODC) [5], which is a key enzyme for biosynthesis of the polyamines which are essential components for cellular growth and proliferation [6]. On the other hand, in the presence of acetoacetate, AtoC regulates the transcription of the atoDAEB operon [2, 4], whose products are involved in catabolism of short-chain fatty acids [7]. However, transcriptome analyses have shown that this protein not only regulates this operon but also upregulates or downregulates 11 and 32 genes, respectively, that are involved in flagellar synthesis [8].
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Transcription factor      
TF conformation(s):
Name Conformation Type TF-Effector Interaction Type Apo/Holo Conformation Evidence Confidence level (C: Confirmed, S: Strong, W: Weak) References
Evolutionary Family: EBP
TFBs length: 20
Sensing class: External-Two-component systems
Connectivity class: Local Regulator
Gene name: atoC
  Genome position: 2321866-2323251
  Length: 1386 bp / 461 aa
Operon name: atoSC
TU(s) encoding the TF:
Transcription unit        Promoter

Regulated gene(s) atoA, atoB, atoD, atoE
Multifun term(s) of regulated gene(s) MultiFun Term (List of genes associated to the multifun term)
fatty acids (3)
membrane (1)
Putative uncharacterized transport protein (1)
Regulated operon(s) atoDAEB
First gene in the operon(s) atoD
Simple and complex regulons AtoC,IHF
Simple and complex regulatory phrases Regulatory phrase (List of promoters regulated by the phrase)

Transcription factor regulation    

Transcription factor binding sites (TFBSs) arrangements

  Functional conformation Function Promoter Sigma factor Central Rel-Pos Distance to first Gene Genes Sequence LeftPos RightPos Evidence Confidence level (C: Confirmed, S: Strong, W: Weak) References
  AtoC-phosphorylated activator atoDp Sigma54 -138.5 -173.5 atoD, atoA, atoE, atoB
  AtoC-phosphorylated activator atoDp Sigma54 -119.5 -154.5 atoD, atoA, atoE, atoB

Evolutionary conservation of regulatory elements    
     Note: Evolutionary conservation of regulatory interactions and promoters is limited to gammaproteobacteria.
Promoter-target gene evolutionary conservation


 [1] Lioliou EE., Mimitou EP., Grigoroudis AI., Panagiotidis CH., Panagiotidis CA., Kyriakidis DA., 2005, Phosphorylation activity of the response regulator of the two-component signal transduction system AtoS-AtoC in E. coli., Biochim Biophys Acta 1725(3):257-68

 [2] Jenkins LS., Nunn WD., 1987, Regulation of the ato operon by the atoC gene in Escherichia coli., J Bacteriol 169(5):2096-102

 [3] Jenkins LS., Nunn WD., 1987, Genetic and molecular characterization of the genes involved in short-chain fatty acid degradation in Escherichia coli: the ato system., J Bacteriol 169(1):42-52

 [4] Matta MK., Lioliou EE., Panagiotidis CH., Kyriakidis DA., Panagiotidis CA., 2007, Interactions of the antizyme AtoC with regulatory elements of the Escherichia coli atoDAEB operon., J Bacteriol 189(17):6324-32

 [5] Lioliou EE, Kyriakidis DA, 2004, The role of bacterial antizyme: From an inhibitory protein to AtoC transcriptional regulator., Microb Cell Fact, 3(1):8 10.1186/1475-2859-3-8

 [6] Tabor CW, Tabor H, 1985, Polyamines in microorganisms., Microbiol Rev, 49(1):81 10.1128/mr.49.1.81-99.1985

 [7] Pauli G, Overath P, 1972, ato Operon: a highly inducible system for acetoacetate and butyrate degradation in Escherichia coli., Eur J Biochem, 29(3):553 10.1111/j.1432-1033.1972.tb02021.x

 [8] Oshima T., Aiba H., Masuda Y., Kanaya S., Sugiura M., Wanner BL., Mori H., Mizuno T., 2002, Transcriptome analysis of all two-component regulatory system mutants of Escherichia coli K-12., Mol Microbiol 46(1):281-91

 [9] Zhou L., Lei XH., Bochner BR., Wanner BL., 2003, Phenotype microarray analysis of Escherichia coli K-12 mutants with deletions of all two-component systems., J Bacteriol 185(16):4956-72

 [10] Theodorou MC, Theodorou EC, Kyriakidis DA, 2012, Involvement of AtoSC two-component system in Escherichia coli flagellar regulon., Amino Acids, 43(2):833 10.1007/s00726-011-1140-7

 [11] Theodorou MC, Panagiotidis CA, Panagiotidis CH, Pantazaki AA, Kyriakidis DA, 2006, Involvement of the AtoS-AtoC signal transduction system in poly-(R)-3-hydroxybutyrate biosynthesis in Escherichia coli., Biochim Biophys Acta, 1760(6):896 10.1016/j.bbagen.2006.01.020

 [12] Kyriakidis DA, Theodorou MC, Filippou PS, Kyriakidis KD, Tiligada E, 2008, Effect of histamine on the signal transduction of the AtoS-AtoC two component system and involvement in poly-(R)-3-hydroxybutyrate biosynthesis in Escherichia coli., Amino Acids, 35(1):45 10.1007/s00726-007-0635-8

 [13] Theodorou MC, Tiligada E, Kyriakidis DA, 2009, Extracellular Ca2+ transients affect poly-(R)-3-hydroxybutyrate regulation by the AtoS-AtoC system in Escherichia coli., Biochem J, 417(3):667 10.1042/BJ20081169

 [14] Grigoroudis AI, Panagiotidis CA, Lioliou EE, Vlassi M, Kyriakidis DA, 2007, Molecular modeling and functional analysis of the AtoS-AtoC two-component signal transduction system of Escherichia coli., Biochim Biophys Acta, 1770(8):1248 10.1016/j.bbagen.2007.04.004

 [15] Rutter JW, Dekker L, Fedorec AJH, Gonzales DT, Wen KY, Tanner LES, Donovan E, Ozdemir T, Thomas GM, Barnes CP, 2021, Engineered acetoacetate-inducible whole-cell biosensors based on the AtoSC two-component system., Biotechnol Bioeng, 118(11):4278 10.1002/bit.27897

 [16] Filippou PS, Lioliou EE, Panagiotidis CA, Athanassopoulos CM, Garnelis T, Papaioannou D, Kyriakidis DA, 2007, Effect of polyamines and synthetic polyamine-analogues on the expression of antizyme (AtoC) and its regulatory genes., BMC Biochem, 8(None):1 10.1186/1471-2091-8-1