The histone acetyltransferase MOF (males-absent-on-the-first) is required for the regulation of X chromosome gene dosage compensation in Drosophila males. In this issue, Kind et al. (2008) show that MOF is also found on autosomes and that it has two modes of binding: one in males for X chromosome dosage compensation and the other in both sexes for X chromosome and autosomal gene regulation independent of dosage compensation
In Drosophila, the Histone Acetiletransferase MOF is included in two different complexes: the Male S...
X chromosomal regulation is a process that presents systematic problems of chromosome recognition an...
The Drosophila MSL complex mediates dosage compensation by increasing transcription of the single X ...
SummaryDosage compensation, mediated by the MSL complex, regulates X-chromosomal gene expression in ...
SummaryThe histone H4 lysine 16 (H4K16)-specific acetyltransferase MOF is part of two distinct compl...
Like in mammals, sex determination in Drosophila melanogaster involves an unequal distribution of se...
The histone H4 lysine 16 (H4K16)-specific acetyltransferase MOF is part of two distinct complexes in...
Dosage compensation is the key regulatory process employed in Drosophila melanogaster to equalize th...
The nuclear acetyltransferase MOF (KAT8 in mammals) is a subunit of at least two multicomponent comp...
AbstractThe multisubunit MSL dosage compensation complex binds to hundreds of sites along the Drosop...
AbstractTwofold differences in gene expression levels can be vital for an organism. This is beautifu...
The essential process of dosage compensation is required to equalize gene expression of X-chromosome...
The essential process of dosage compensation is required to equalize gene expression of X-chromosome...
Drosophila MSL complex binds the single male X chromosome to upregulate gene expression to equal tha...
<div><p>The essential process of dosage compensation is required to equalize gene expression of X-ch...
In Drosophila, the Histone Acetiletransferase MOF is included in two different complexes: the Male S...
X chromosomal regulation is a process that presents systematic problems of chromosome recognition an...
The Drosophila MSL complex mediates dosage compensation by increasing transcription of the single X ...
SummaryDosage compensation, mediated by the MSL complex, regulates X-chromosomal gene expression in ...
SummaryThe histone H4 lysine 16 (H4K16)-specific acetyltransferase MOF is part of two distinct compl...
Like in mammals, sex determination in Drosophila melanogaster involves an unequal distribution of se...
The histone H4 lysine 16 (H4K16)-specific acetyltransferase MOF is part of two distinct complexes in...
Dosage compensation is the key regulatory process employed in Drosophila melanogaster to equalize th...
The nuclear acetyltransferase MOF (KAT8 in mammals) is a subunit of at least two multicomponent comp...
AbstractThe multisubunit MSL dosage compensation complex binds to hundreds of sites along the Drosop...
AbstractTwofold differences in gene expression levels can be vital for an organism. This is beautifu...
The essential process of dosage compensation is required to equalize gene expression of X-chromosome...
The essential process of dosage compensation is required to equalize gene expression of X-chromosome...
Drosophila MSL complex binds the single male X chromosome to upregulate gene expression to equal tha...
<div><p>The essential process of dosage compensation is required to equalize gene expression of X-ch...
In Drosophila, the Histone Acetiletransferase MOF is included in two different complexes: the Male S...
X chromosomal regulation is a process that presents systematic problems of chromosome recognition an...
The Drosophila MSL complex mediates dosage compensation by increasing transcription of the single X ...
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