DNA Binding Site

Accessions: PF0072.1.1 (JASPAR 2024), PF0072.1.15 (JASPAR 2024), PF0072.1.18 (JASPAR 2024), PF0072.1.6 (JASPAR 2024), PF0072.1.8 (JASPAR 2024), MA1458.2.11 (JASPAR 2024), MA1458.2.14 (JASPAR 2024), MA1458.2.17 (JASPAR 2024), MA1458.2.4 (JASPAR 2024), MA1458.2.5 (JASPAR 2024), MA1458.2.7 (JASPAR 2024), MA1579.2.1 (JASPAR 2024), MA1579.2.11 (JASPAR 2024), MA1579.2.12 (JASPAR 2024), MA1579.2.2 (JASPAR 2024), MA1579.2.3 (JASPAR 2024), MA1579.2.4 (JASPAR 2024), MA1667.3.18 (JASPAR 2024), MA1667.3.6 (JASPAR 2024), MA1667.3.7 (JASPAR 2024), MA1667.3.9 (JASPAR 2024), MA2169.1.1 (JASPAR 2024), MA2169.1.13 (JASPAR 2024), MA2169.1.15 (JASPAR 2024), MA2169.1.20 (JASPAR 2024), MA2169.1.3 (JASPAR 2024), MA2169.1.9 (JASPAR 2024), UN0379.2.11 (JASPAR 2024), UN0379.2.12 (JASPAR 2024), UN0379.2.2 (JASPAR 2024), UN0379.2.8 (JASPAR 2024), UN0379.2.9 (JASPAR 2024)
Organisms: Drosophila melanogaster, Homo sapiens, Arabidopsis thaliana, Caenorhabditis elegans
Libraries: JASPAR 2024 1
1 Rauluseviciute I, Riudavets-Puig R, Blanc-Mathieu R, Castro-Mondragon JA, Ferenc K, Kumar V, Lemma RB, Lucas J, Cheneby J, Baranasic D, Khan A, Fornes O, Gundersen S, Johansen M, Hovig E, Lenhard B, Sandelin A, Wasserman WW, Parcy F, Mathelier A. JASPAR 2024: 20th anniversary of the open-access database of transcription factor binding profiles. Nucleic Acids Res : (2023). [Pubmed]
Length: 8
Sequence: TTCCAGAA
Type: Heterodimer
Binding TFs: P22813 (HSF-type DNA-binding)
Q9LV52 (HSF-type DNA-binding, Interferon-induced 35 kDa protein (IFP 35) N-terminus)
Q93VI0 (DNA binding protein S1FA)
Q9HCK0 (Zinc finger, C2H2 type, BTB/POZ domain, Zinc-finger double domain, C2H2-type zinc finger)
G5EFT5
P22813
Q93VI0
Q9HCK0
Q9LV52
Binding Motifs: PF0072.1 TTCyrGAA
MA1458.2 TTCcAGAA
MA1579.2 cTCCAGAA
MA1667.3 TTCyAGAA
MA2169.1 TTCyAGAA
UN0379.2 TTCyAGAA
Publications: Xie X, Lu J, Kulbokas E.J, Golub T.R, Mootha V, Lindblad-Toh K, Lander E.S, Kellis M. Systematic discovery of regulatory motifs in human promoters and 3' UTRs by comparison of several mammals. Nature 434:338-45 (2005). [Pubmed]

Nitta KR, Jolma A, Yin Y, Morgunova E, Kivioja T, Akhtar J, Hens K, Toivonen J, Deplancke B, Furlong EE, Taipale J. Conservation of transcription factor binding specificities across 600 million years of bilateria evolution. Elife : (2015). [Pubmed]

Yin Y, Morgunova E, Jolma A, Kaasinen E, Sahu B, Khund-Sayeed S, Das PK, Kivioja T, Dave K, Zhong F, Nitta KR, Taipale M, Popov A, Ginno PA, Domcke S, Yan J, Schübeler D, Vinson C, Taipale J. Impact of cytosine methylation on DNA binding specificities of human transcription factors. Science : (2017). [Pubmed]

Wu C. Heat shock transcription factors: structure and regulation. Annu Rev Cell Dev Biol : (1995;11:441-69.). [Pubmed]

Narasimhan K, Lambert SA, Yang AW, Riddell J, Mnaimneh S, Zheng H, Albu M, Najafabadi HS, Reece-Hoyes JS, Fuxman Bass JI, Walhout AJ, Weirauch MT, Hughes TR. Mapping and analysis of Caenorhabditis elegans transcription factor sequence specificities. Elife : (2015). [Pubmed]

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