The Abd-B-like Hox Homeodomain Proteins Can Be Subdivided by the Ability to Form Complexes with Pbx1a on a Novel DNA Target

Previous studies showed that the Hox homeodomain proteins from paralog groups 1–8 display cooperative DNA binding with the non-Hox homeodomain protein Pbx, mediated by a canonical YPWM. Although the Abd-B-like Hox proteins in paralogs 9–13 lack this sequence, Hoxb-9 and Hoxa-10 were reported to bind...

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Veröffentlicht in:	The Journal of biological chemistry 1997-03, Vol.272 (13), p.8198-8206
Hauptverfasser:	Shen, Wei-Fang, Rozenfeld, Sofia, Lawrence, H. Jeffrey, Largman, Corey
Format:	Artikel
Sprache:	eng
Schlagworte:	Amino Acid Sequence Base Sequence DNA - metabolism DNA-Binding Proteins - chemistry DNA-Binding Proteins - metabolism Drosophila Proteins Genes, Homeobox Homeobox A10 Proteins Homeodomain Proteins - chemistry Homeodomain Proteins - metabolism Humans Molecular Sequence Data Pre-B-Cell Leukemia Transcription Factor 1 Proto-Oncogene Proteins - chemistry Proto-Oncogene Proteins - metabolism Structure-Activity Relationship TATA Box Transcription Factors - metabolism Tryptophan Xenopus Proteins
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container_title	The Journal of biological chemistry
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creator	Shen, Wei-Fang Rozenfeld, Sofia Lawrence, H. Jeffrey Largman, Corey
description	Previous studies showed that the Hox homeodomain proteins from paralog groups 1–8 display cooperative DNA binding with the non-Hox homeodomain protein Pbx, mediated by a canonical YPWM. Although the Abd-B-like Hox proteins in paralogs 9–13 lack this sequence, Hoxb-9 and Hoxa-10 were reported to bind with Pbx1a to DNA. We show that these interactions require a tryptophan 6 amino acids N-terminal to the homeodomain. Binding site selection for Hoxb-9 with Pbx1a yielded ATGATGAC, containing a novel TTAC Hox-binding site adjacent to a Pbx site. In the presence of Pbx1a, Hoxb-9 and Hoxa-10 bound to targets containing either TTAC or TTAT. These data extend previous findings that interactions with Pbx define a Hox protein binding code for different DNA sequences across paralog groups 1 through 10. Members of the 11, 12, and 13 paralogs do not cooperatively bind DNA with Pbx1a, despite the presence of tryptophan residues N-terminal to the homeodomain in Hoxd-12 and Hoxd-13. Hoxa-11, Hoxd-12, or Hoxd-13, in the presence of Pbx1a, selected a TTAC Hox site but lacking a Pbx1a site. These data suggest that Abd-B-like Hox proteins bind to a novel TTAC site and can be divided by their cooperative binding to DNA with Pbx1a.
doi_str_mv	10.1074/jbc.272.13.8198
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Jeffrey</creatorcontrib><creatorcontrib>Largman, Corey</creatorcontrib><title>The Abd-B-like Hox Homeodomain Proteins Can Be Subdivided by the Ability to Form Complexes with Pbx1a on a Novel DNA Target</title><title>The Journal of biological chemistry</title><addtitle>J Biol Chem</addtitle><description>Previous studies showed that the Hox homeodomain proteins from paralog groups 1–8 display cooperative DNA binding with the non-Hox homeodomain protein Pbx, mediated by a canonical YPWM. Although the Abd-B-like Hox proteins in paralogs 9–13 lack this sequence, Hoxb-9 and Hoxa-10 were reported to bind with Pbx1a to DNA. We show that these interactions require a tryptophan 6 amino acids N-terminal to the homeodomain. Binding site selection for Hoxb-9 with Pbx1a yielded ATGATGAC, containing a novel TTAC Hox-binding site adjacent to a Pbx site. In the presence of Pbx1a, Hoxb-9 and Hoxa-10 bound to targets containing either TTAC or TTAT. 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subjects	Amino Acid Sequence Base Sequence DNA - metabolism DNA-Binding Proteins - chemistry DNA-Binding Proteins - metabolism Drosophila Proteins Genes, Homeobox Homeobox A10 Proteins Homeodomain Proteins - chemistry Homeodomain Proteins - metabolism Humans Molecular Sequence Data Pre-B-Cell Leukemia Transcription Factor 1 Proto-Oncogene Proteins - chemistry Proto-Oncogene Proteins - metabolism Structure-Activity Relationship TATA Box Transcription Factors - metabolism Tryptophan Xenopus Proteins
title	The Abd-B-like Hox Homeodomain Proteins Can Be Subdivided by the Ability to Form Complexes with Pbx1a on a Novel DNA Target
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