Molecular basis and specificity of H2A.Z-H2B recognition and deposition by the histone chaperone YL1

Chrysa M. Latrick; Martin Marek; Khalid Ouararhni; Christophe Papin; Isabelle Stoll; Maria Ignatyeva; Arnaud Obri; Eric Ennifar; Stefan Dimitrov; Christophe Romier; Ali Hamiche

doi:10.1038/nsmb.3189

Molecular basis and specificity of H2A.Z-H2B recognition and deposition by the histone chaperone YL1

Chrysa M. Latrick, Martin Marek, Khalid Ouararhni, Christophe Papin, Isabelle Stoll, Maria Ignatyeva, Arnaud Obri, Eric Ennifar, Stefan Dimitrov, Christophe Romier, Ali Hamiche^*

^*Corresponding author for this work

Research output: Contribution to journal › Article › peer-review

57 Citations (Scopus)

Abstract

H2A.Z, a widely conserved histone variant, is evicted from chromatin by the histone chaperone ANP32E. However, to date, no deposition chaperone for H2A.Z is known in metazoans. Here, we identify YL1 as a specific H2A.Z-deposition chaperone. The 2.7-Å-resolution crystal structure of the human YL1-H2A.Z-H2B complex shows that YL1 binding, similarly to ANP32E binding, triggers an extension of the H2A.Z αC helix. The interaction with YL1 is, however, more extensive and includes both the extended acidic patch and the entire DNA-binding surface of H2A.Z-H2B. Substitution of only four amino acid residues of H2A is sufficient for the formation of an H2A.Z-like interface specifically recognized by YL1. Collectively, our data reveal the molecular basis of H2A.Z-specific recognition by YL1 and shed light on the mechanism of H2A.Z transfer to the nucleosome by the ATP-dependent chromatin-remodeling complexes SRCAP and P400-TIP60.

Original language	English
Pages (from-to)	309-316
Number of pages	8
Journal	Nature Structural and Molecular Biology
Volume	23
Issue number	4
DOIs	https://doi.org/10.1038/nsmb.3189
Publication status	Published - 5 Apr 2016
Externally published	Yes

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title = "Molecular basis and specificity of H2A.Z-H2B recognition and deposition by the histone chaperone YL1",

abstract = "H2A.Z, a widely conserved histone variant, is evicted from chromatin by the histone chaperone ANP32E. However, to date, no deposition chaperone for H2A.Z is known in metazoans. Here, we identify YL1 as a specific H2A.Z-deposition chaperone. The 2.7-{\AA}-resolution crystal structure of the human YL1-H2A.Z-H2B complex shows that YL1 binding, similarly to ANP32E binding, triggers an extension of the H2A.Z αC helix. The interaction with YL1 is, however, more extensive and includes both the extended acidic patch and the entire DNA-binding surface of H2A.Z-H2B. Substitution of only four amino acid residues of H2A is sufficient for the formation of an H2A.Z-like interface specifically recognized by YL1. Collectively, our data reveal the molecular basis of H2A.Z-specific recognition by YL1 and shed light on the mechanism of H2A.Z transfer to the nucleosome by the ATP-dependent chromatin-remodeling complexes SRCAP and P400-TIP60.",

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AU - Latrick, Chrysa M.

AU - Marek, Martin

AU - Ouararhni, Khalid

AU - Papin, Christophe

AU - Stoll, Isabelle

AU - Ignatyeva, Maria

AU - Obri, Arnaud

AU - Ennifar, Eric

AU - Dimitrov, Stefan

AU - Romier, Christophe

AU - Hamiche, Ali

PY - 2016/4/5

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N2 - H2A.Z, a widely conserved histone variant, is evicted from chromatin by the histone chaperone ANP32E. However, to date, no deposition chaperone for H2A.Z is known in metazoans. Here, we identify YL1 as a specific H2A.Z-deposition chaperone. The 2.7-Å-resolution crystal structure of the human YL1-H2A.Z-H2B complex shows that YL1 binding, similarly to ANP32E binding, triggers an extension of the H2A.Z αC helix. The interaction with YL1 is, however, more extensive and includes both the extended acidic patch and the entire DNA-binding surface of H2A.Z-H2B. Substitution of only four amino acid residues of H2A is sufficient for the formation of an H2A.Z-like interface specifically recognized by YL1. Collectively, our data reveal the molecular basis of H2A.Z-specific recognition by YL1 and shed light on the mechanism of H2A.Z transfer to the nucleosome by the ATP-dependent chromatin-remodeling complexes SRCAP and P400-TIP60.

AB - H2A.Z, a widely conserved histone variant, is evicted from chromatin by the histone chaperone ANP32E. However, to date, no deposition chaperone for H2A.Z is known in metazoans. Here, we identify YL1 as a specific H2A.Z-deposition chaperone. The 2.7-Å-resolution crystal structure of the human YL1-H2A.Z-H2B complex shows that YL1 binding, similarly to ANP32E binding, triggers an extension of the H2A.Z αC helix. The interaction with YL1 is, however, more extensive and includes both the extended acidic patch and the entire DNA-binding surface of H2A.Z-H2B. Substitution of only four amino acid residues of H2A is sufficient for the formation of an H2A.Z-like interface specifically recognized by YL1. Collectively, our data reveal the molecular basis of H2A.Z-specific recognition by YL1 and shed light on the mechanism of H2A.Z transfer to the nucleosome by the ATP-dependent chromatin-remodeling complexes SRCAP and P400-TIP60.

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Molecular basis and specificity of H2A.Z-H2B recognition and deposition by the histone chaperone YL1

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