Group:USC-LCHS
From Proteopedia
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| - | ==Example: DNA shape is the molecular basis for Hox specificity== | + | ==Example: Readout of DNA minor groove shape is the molecular basis for Hox specificity== |
<StructureSection load='2r5z' size='500' side='right' caption='(PDB entry [[2r5z]])' scene=''> | <StructureSection load='2r5z' size='500' side='right' caption='(PDB entry [[2r5z]])' scene=''> | ||
===Publication Abstract from PubMed=== | ===Publication Abstract from PubMed=== | ||
| - | The recognition of specific DNA-binding sites by transcription factors is a critical yet poorly understood step in the control of gene expression. Members of the Hox family of transcription factors bind DNA by making nearly identical major groove contacts via the recognition helices of their homeodomains. In vivo specificity, however, often depends on extended and unstructured regions that link Hox homeodomains to a DNA-bound cofactor, Extradenticle (Exd). Using a combination of structure determination, computational analysis, and in vitro and in vivo assays, we show that Hox proteins recognize specific Hox-Exd binding sites via | + | The recognition of specific DNA-binding sites by transcription factors is a critical yet poorly understood step in the control of gene expression. Members of the Hox family of transcription factors bind DNA by making nearly identical major groove contacts via the recognition helices of their homeodomains. In vivo specificity, however, often depends on extended and unstructured regions that link Hox homeodomains to a DNA-bound cofactor, Extradenticle (Exd). Using a combination of structure determination, computational analysis, and in vitro and in vivo assays, we show that Hox proteins recognize specific Hox-Exd binding sites via <scene name='Group:USC-LCHS/2r5z_his-12arg3arg5_closeup/3'>residues located in these extended regions that insert into the minor groove</scene>insert into the minor groove but only when presented with the correct DNA sequence. Our results suggest that these residues, which are conserved in a paralog-specific manner, confer specificity by recognizing a sequence-dependent DNA structure instead of directly reading a specific DNA sequence. |
''Functional specificity of a Hox protein mediated by the recognition of minor groove structure., Joshi R, Passner JM, Rohs R, Jain R, Sosinsky A, Crickmore MA, Jacob V, Aggarwal AK, Honig B, Mann RS, Cell. 2007 Nov 2;131(3):530-43. PMID:[http://www.ncbi.nlm.nih.gov/pubmed/17981120 17981120]'' | ''Functional specificity of a Hox protein mediated by the recognition of minor groove structure., Joshi R, Passner JM, Rohs R, Jain R, Sosinsky A, Crickmore MA, Jacob V, Aggarwal AK, Honig B, Mann RS, Cell. 2007 Nov 2;131(3):530-43. PMID:[http://www.ncbi.nlm.nih.gov/pubmed/17981120 17981120]'' | ||
Revision as of 01:59, 20 July 2011
USC-LCHS: University of Southern California - La Cañada High School
Welcome, scientists! Welcome to your home page for the joint structural biology initiative between the University of Southern California (USC) and La Cañada High School (LCHS), hosted on the Proteopedia web resource. The goal is... . You'll notice that this is not a regular webpage. If you scroll down a bit, you will find that there are interactive 3D structures of proteins and nucleic acids on this page. You can even trigger animations by clicking on green hyperlinks in the text when you find them--these green hyperlinks will change the orientation and representation of the 3D structure in order to illustrate a point made in the text. The best part is that it is easy to create your own page with an interactive 3D structure and green links, and that is what you will be doing to present your findings! Feel free to also explore other pages in Proteopedia that are not related to USC-LCHS. Proteopedia is a collaborative 3D encyclopedia of proteins and other biomolecules, and you will find many interesting proteins described in interactive detail.
Example: Readout of DNA minor groove shape is the molecular basis for Hox specificity
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Example: Hoogsteen base pairs modulate shape of p53-DNA binding site
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