Regions of variant histone His2AvD required for Drosophila development

Michael John Clarkson; Julian R.E. Wells; Frank Gibson; Robert Saint; David John Tremethick

doi:10.1038/21436

Regions of variant histone His2AvD required for Drosophila development

Michael John Clarkson, Julian R.E. Wells, Frank Gibson, Robert Saint, David John Tremethick^*

^*Corresponding author for this work

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

175 Citations (Scopus)

Abstract

One way in which a distinct chromosomal domain could be established to carry out a specialized function is by the localized incorporation of specific histone variants into nucleosomes. H2AZ, one such variant of the histone protein H2A, is required for the survival of Drosophila melanogaster, Tetrahymena thermophila and mice (R. Faast et al., in preparation). To search for the unique features of Drosophila H2AZ (His2AvD, also referred to as H2AvD) that are required for its essential function, we have performed amino- acid swap experiments in which residues unique to Drosophila His2AvD were replaced with equivalently positioned Drosophila H2A.1 residues. Mutated His2AvD genes encoding modified versions of this histone were transformed into Drosophila and tested for their ability to rescue null-mutant lethality. We show that the unique feature of His2AvD does not reside in its histone fold but in its carboxy-terminal domain. This C-terminal region maps to a short α-helix in H2A that is buried deep inside the nucleosome core.

Original language	English
Pages (from-to)	694-697
Number of pages	4
Journal	Nature
Volume	399
Issue number	6737
DOIs	https://doi.org/10.1038/21436
Publication status	Published - 17 Jun 1999

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title = "Regions of variant histone His2AvD required for Drosophila development",

abstract = "One way in which a distinct chromosomal domain could be established to carry out a specialized function is by the localized incorporation of specific histone variants into nucleosomes. H2AZ, one such variant of the histone protein H2A, is required for the survival of Drosophila melanogaster, Tetrahymena thermophila and mice (R. Faast et al., in preparation). To search for the unique features of Drosophila H2AZ (His2AvD, also referred to as H2AvD) that are required for its essential function, we have performed amino- acid swap experiments in which residues unique to Drosophila His2AvD were replaced with equivalently positioned Drosophila H2A.1 residues. Mutated His2AvD genes encoding modified versions of this histone were transformed into Drosophila and tested for their ability to rescue null-mutant lethality. We show that the unique feature of His2AvD does not reside in its histone fold but in its carboxy-terminal domain. This C-terminal region maps to a short α-helix in H2A that is buried deep inside the nucleosome core.",

author = "Clarkson, {Michael John} and Wells, {Julian R.E.} and Frank Gibson and Robert Saint and Tremethick, {David John}",

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T1 - Regions of variant histone His2AvD required for Drosophila development

AU - Clarkson, Michael John

AU - Wells, Julian R.E.

AU - Gibson, Frank

AU - Saint, Robert

AU - Tremethick, David John

PY - 1999/6/17

Y1 - 1999/6/17

N2 - One way in which a distinct chromosomal domain could be established to carry out a specialized function is by the localized incorporation of specific histone variants into nucleosomes. H2AZ, one such variant of the histone protein H2A, is required for the survival of Drosophila melanogaster, Tetrahymena thermophila and mice (R. Faast et al., in preparation). To search for the unique features of Drosophila H2AZ (His2AvD, also referred to as H2AvD) that are required for its essential function, we have performed amino- acid swap experiments in which residues unique to Drosophila His2AvD were replaced with equivalently positioned Drosophila H2A.1 residues. Mutated His2AvD genes encoding modified versions of this histone were transformed into Drosophila and tested for their ability to rescue null-mutant lethality. We show that the unique feature of His2AvD does not reside in its histone fold but in its carboxy-terminal domain. This C-terminal region maps to a short α-helix in H2A that is buried deep inside the nucleosome core.

AB - One way in which a distinct chromosomal domain could be established to carry out a specialized function is by the localized incorporation of specific histone variants into nucleosomes. H2AZ, one such variant of the histone protein H2A, is required for the survival of Drosophila melanogaster, Tetrahymena thermophila and mice (R. Faast et al., in preparation). To search for the unique features of Drosophila H2AZ (His2AvD, also referred to as H2AvD) that are required for its essential function, we have performed amino- acid swap experiments in which residues unique to Drosophila His2AvD were replaced with equivalently positioned Drosophila H2A.1 residues. Mutated His2AvD genes encoding modified versions of this histone were transformed into Drosophila and tested for their ability to rescue null-mutant lethality. We show that the unique feature of His2AvD does not reside in its histone fold but in its carboxy-terminal domain. This C-terminal region maps to a short α-helix in H2A that is buried deep inside the nucleosome core.

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Regions of variant histone His2AvD required for Drosophila development

Abstract

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