Jason S. Lamoureux scite author profile

Progression through the middle phase of sporulation in Saccharomyces cerevisiae is promoted by the successful completion of recombination at the end of prophase I. Completion of meiotic recombination allows the activation of the sporulation-speci®c transcription factor Ndt80, which binds to a speci®c DNA sequence, the middle sporulation element (MSE), and activates~150 genes to enable progression through meiosis. Here, we isolate the DNA-binding domain of Ndt80 and determine its crystal structure both free and in complex with an MSE-containing DNA. The structure reveals that Ndt80 is a member of the Ig-fold family of transcription factors. The structure of the DNA-bound form, re®ned at 1.4 A Ê , reveals an unexpected mode of recognition of 5¢-pyrimidine± guanine-3¢ dinucleotide steps by arginine residues that simultaneously recognize the 3¢-guanine base through hydrogen bond interactions and the 5¢-pyrimidine through stacking/van der Waals interactions. Analysis of the DNA-binding af®nities of MSE mutants demonstrates the central importance of these interactions, and of the AT-rich portion of the MSE. Functional similarities between Ndt80 and the Caenorhabditis elegans p53 homolog suggest an evolutionary link between Ndt80 and the p53 family.

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Recognition of 5′-YpG-3′ Sequences by Coupled Stacking/Hydrogen Bonding Interactions with Amino Acid Residues

Lamoureux¹,

Maynes²,

Glover³

2004

Journal of Molecular Biology

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Insights into Substrate Gating in H. influenzae Rhomboid

Brooks

Lazareno-Saez

Lamoureux

et al. 2011

Journal of Molecular Biology

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Principles of Protein-DNA Recognition Revealed in the Structural Analysis of Ndt80-MSE DNA Complexes

Lamoureux

Glover

2006

Structure

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The Saccharomyces cerevisiae transcription factor Ndt80 selectively binds a DNA consensus sequence (the middle sporulation element [MSE]) to activate gene expression after the successful completion of meiotic recombination. Here we report the X-ray crystal structures of Ndt80 bound to ten distinct MSE variants. Comparison of these structures with the structure of Ndt80 bound to a consensus MSE reveals structural principles that determine the DNA binding specificity of this transcription factor. The 5' GC-rich end of the MSE contains distinct 5'-YpG-3' steps that are recognized by arginine side chains through a combination of hydrogen bonding and cation-pi interactions. The 3' AT-rich region is recognized via minor groove contacts that sterically exclude the N2 atom of GC base pairs. The conformation of the AT-rich region is fixed by interactions with the protein that favor recognition of poly(A)-poly(T) versus mixed AT sequences through an avoidance of major groove steric clashes at 5'-ApT-3' steps.

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Structure of Ndt80 (Residues 59-340) DNA-binding domain core

Lamoureux¹,

Stuart²,

Tsang³

et al. 2002

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