H4K20me1 Contributes to Downregulation of X-Linked Genes for C. elegans Dosage Compensation

The Caenorhabditis elegans dosage compensation complex (DCC) equalizes X-chromosome gene dosage between XO males and XX hermaphrodites by two-fold repression of X-linked gene expression in hermaphrodites. The DCC localizes to the X chromosomes in hermaphrodites but not in males, and some subunits fo...

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Autores principales: Vielle, Anne, Lang, Jackie, Dong, Yan, Ercan, Sevinc, Kotwaliwale, Chitra, Rechtsteiner, Andreas, Appert, Alex, Chen, Q. Brent, Dose, Andrea, Egelhofer, Thea, Kimura, Hiroshi, Stempor, Przemyslaw, Dernburg, Abby, Lieb, Jason D., Strome, Susan, Ahringer, Julie
Formato: Online Artículo Texto
Lenguaje:English
Publicado: Public Library of Science 2012
Materias:
Research Article
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC3441679/
https://www.ncbi.nlm.nih.gov/pubmed/23028348
http://dx.doi.org/10.1371/journal.pgen.1002933
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author Vielle, Anne
Lang, Jackie
Dong, Yan
Ercan, Sevinc
Kotwaliwale, Chitra
Rechtsteiner, Andreas
Appert, Alex
Chen, Q. Brent
Dose, Andrea
Egelhofer, Thea
Kimura, Hiroshi
Stempor, Przemyslaw
Dernburg, Abby
Lieb, Jason D.
Strome, Susan
Ahringer, Julie
author_facet Vielle, Anne
Lang, Jackie
Dong, Yan
Ercan, Sevinc
Kotwaliwale, Chitra
Rechtsteiner, Andreas
Appert, Alex
Chen, Q. Brent
Dose, Andrea
Egelhofer, Thea
Kimura, Hiroshi
Stempor, Przemyslaw
Dernburg, Abby
Lieb, Jason D.
Strome, Susan
Ahringer, Julie
author_sort Vielle, Anne
collection PubMed
description The Caenorhabditis elegans dosage compensation complex (DCC) equalizes X-chromosome gene dosage between XO males and XX hermaphrodites by two-fold repression of X-linked gene expression in hermaphrodites. The DCC localizes to the X chromosomes in hermaphrodites but not in males, and some subunits form a complex homologous to condensin. The mechanism by which the DCC downregulates gene expression remains unclear. Here we show that the DCC controls the methylation state of lysine 20 of histone H4, leading to higher H4K20me1 and lower H4K20me3 levels on the X chromosomes of XX hermaphrodites relative to autosomes. We identify the PR-SET7 ortholog SET-1 and the Suv4-20 ortholog SET-4 as the major histone methyltransferases for monomethylation and di/trimethylation of H4K20, respectively, and provide evidence that X-chromosome enrichment of H4K20me1 involves inhibition of SET-4 activity on the X. RNAi knockdown of set-1 results in synthetic lethality with dosage compensation mutants and upregulation of X-linked gene expression, supporting a model whereby H4K20me1 functions with the condensin-like C. elegans DCC to repress transcription of X-linked genes. H4K20me1 is important for mitotic chromosome condensation in mammals, suggesting that increased H4K20me1 on the X may restrict access of the transcription machinery to X-linked genes via chromatin compaction.
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spelling pubmed-34416792012-10-01 H4K20me1 Contributes to Downregulation of X-Linked Genes for C. elegans Dosage Compensation Vielle, Anne Lang, Jackie Dong, Yan Ercan, Sevinc Kotwaliwale, Chitra Rechtsteiner, Andreas Appert, Alex Chen, Q. Brent Dose, Andrea Egelhofer, Thea Kimura, Hiroshi Stempor, Przemyslaw Dernburg, Abby Lieb, Jason D. Strome, Susan Ahringer, Julie PLoS Genet Research Article The Caenorhabditis elegans dosage compensation complex (DCC) equalizes X-chromosome gene dosage between XO males and XX hermaphrodites by two-fold repression of X-linked gene expression in hermaphrodites. The DCC localizes to the X chromosomes in hermaphrodites but not in males, and some subunits form a complex homologous to condensin. The mechanism by which the DCC downregulates gene expression remains unclear. Here we show that the DCC controls the methylation state of lysine 20 of histone H4, leading to higher H4K20me1 and lower H4K20me3 levels on the X chromosomes of XX hermaphrodites relative to autosomes. We identify the PR-SET7 ortholog SET-1 and the Suv4-20 ortholog SET-4 as the major histone methyltransferases for monomethylation and di/trimethylation of H4K20, respectively, and provide evidence that X-chromosome enrichment of H4K20me1 involves inhibition of SET-4 activity on the X. RNAi knockdown of set-1 results in synthetic lethality with dosage compensation mutants and upregulation of X-linked gene expression, supporting a model whereby H4K20me1 functions with the condensin-like C. elegans DCC to repress transcription of X-linked genes. H4K20me1 is important for mitotic chromosome condensation in mammals, suggesting that increased H4K20me1 on the X may restrict access of the transcription machinery to X-linked genes via chromatin compaction. Public Library of Science 2012-09-13 /pmc/articles/PMC3441679/ /pubmed/23028348 http://dx.doi.org/10.1371/journal.pgen.1002933 Text en © 2012 Vielle et al http://creativecommons.org/licenses/by/4.0/ This is an open-access article distributed under the terms of the Creative Commons Attribution License, which permits unrestricted use, distribution, and reproduction in any medium, provided the original author and source are properly credited.
spellingShingle Research Article
Vielle, Anne
Lang, Jackie
Dong, Yan
Ercan, Sevinc
Kotwaliwale, Chitra
Rechtsteiner, Andreas
Appert, Alex
Chen, Q. Brent
Dose, Andrea
Egelhofer, Thea
Kimura, Hiroshi
Stempor, Przemyslaw
Dernburg, Abby
Lieb, Jason D.
Strome, Susan
Ahringer, Julie
H4K20me1 Contributes to Downregulation of X-Linked Genes for C. elegans Dosage Compensation
title H4K20me1 Contributes to Downregulation of X-Linked Genes for C. elegans Dosage Compensation
title_full H4K20me1 Contributes to Downregulation of X-Linked Genes for C. elegans Dosage Compensation
title_fullStr H4K20me1 Contributes to Downregulation of X-Linked Genes for C. elegans Dosage Compensation
title_full_unstemmed H4K20me1 Contributes to Downregulation of X-Linked Genes for C. elegans Dosage Compensation
title_short H4K20me1 Contributes to Downregulation of X-Linked Genes for C. elegans Dosage Compensation
title_sort h4k20me1 contributes to downregulation of x-linked genes for c. elegans dosage compensation
topic Research Article
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC3441679/
https://www.ncbi.nlm.nih.gov/pubmed/23028348
http://dx.doi.org/10.1371/journal.pgen.1002933
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