John F. Flanagan scite author profile

Chromodomains are modules implicated in the recognition of lysine-methylated histone tails and nucleic acids. CHD (for chromo-ATPase/helicase-DNA-binding) proteins regulate ATP-dependent nucleosome assembly and mobilization through their conserved double chromodomains and SWI2/SNF2 helicase/ATPase domain. The Drosophila CHD1 localizes to the interbands and puffs of the polytene chromosomes, which are classic sites of transcriptional activity. Other CHD isoforms (CHD3/4 or Mi-2) are important for nucleosome remodelling in histone deacetylase complexes. Deletion of chromodomains impairs nucleosome binding and remodelling by CHD proteins. Here we describe the structure of the tandem arrangement of the human CHD1 chromodomains, and its interactions with histone tails. Unlike HP1 and Polycomb proteins that use single chromodomains to bind to their respective methylated histone H3 tails, the two chromodomains of CHD1 cooperate to interact with one methylated H3 tail. We show that the human CHD1 double chromodomains target the lysine 4-methylated histone H3 tail (H3K4me), a hallmark of active chromatin. Methylammonium recognition involves two aromatic residues, not the three-residue aromatic cage used by chromodomains of HP1 and Polycomb proteins. Furthermore, unique inserts within chromodomain 1 of CHD1 block the expected site of H3 tail binding seen in HP1 and Polycomb, instead directing H3 binding to a groove at the inter-chromodomain junction.

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Molecular Implications of Evolutionary Differences in CHD Double Chromodomains

Flanagan

Blus

Kim

et al. 2007

Journal of Molecular Biology

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Double chromodomains occur in CHD proteins which are ATP-dependent chromatin remodeling factors implicated in RNA polymerase II transcription regulation. Biochemical studies suggest important differences in the histone H3 tail binding of different CHD chromodomains. In human and Drosophila, CHD1 double chromodomains bind lysine 4-methylated histone H3 tail which is a hallmark of transcriptionally active chromatin in all eukaryotes. Here, we present the crystal structure of the yeast CHD1 double chromodomains, and pinpoint its differences with that of the human CHD1 double chromodomains. The most conserved residues in these double chromodomains are the two chromoboxes that orient adjacently. Only a subset of CHD chromoboxes can form an aromatic cage for methyllysine binding, and methyllysine binding requires correctly oriented inserts. These factors preclude yeast CHD1 double chromodomains to interact with the histone H3 tail. Despite great sequence similarity between the human CHD1 and CHD2 chromodomains, variation within an insert likely prevents CHD2 double chromodomains to bind lysine 4-methylated histone H3 tail as efficiently as in CHD1. By using the available structural and biochemical data we highlight the evolutionary specialization of CHD double chromodomains, and provide insights about their targeting capacities.

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Femoral nerve block as an alternative to parenteral narcotics for pain control after anterior cruciate ligament reconstruction

Edkin

Spindler

Flanagan

1995

Arthroscopy: The Journal of Arthroscopic & Related Surgery

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The Kidney as a Source of Blood Ammonia in Patients With Liver Disease: The Effect of Acetazolamide *†

Owen¹,

Tyor²,

Flanagan³

et al. 1960

J. Clin. Invest.

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Analgesia With Femoral Nerve Block for Anterior Cruciate Ligament Reconstruction

Edkin

McCarty²,

Spindler³

et al. 1999

Clinical Orthopaedics and Related Research

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John F. Flanagan

Double chromodomains cooperate to recognize the methylated histone H3 tail

Molecular Implications of Evolutionary Differences in CHD Double Chromodomains

Femoral nerve block as an alternative to parenteral narcotics for pain control after anterior cruciate ligament reconstruction

The Kidney as a Source of Blood Ammonia in Patients With Liver Disease: The Effect of Acetazolamide *†

Analgesia With Femoral Nerve Block for Anterior Cruciate Ligament Reconstruction

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