Combinatorial Genetic Control of Rpd3S Through Histone H3K4 and H3K36 Methylation in Budding Yeast
Much of euchromatin regulation occurs through reversible methylation of histone H3 lysine-4 and lysine-36 (H3K4me and H3K36me). Using the budding yeast Saccharomyces cerevisiae, we previously found that levels of H3K4me modulated temperature sensitive alleles of the transcriptional elongation comple...
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doaj-2c9c7fe136d54c94a83d45c3eefc66ce2021-07-02T09:15:23ZengOxford University PressG3: Genes, Genomes, Genetics2160-18362018-11-018113411342010.1534/g3.118.2005893Combinatorial Genetic Control of Rpd3S Through Histone H3K4 and H3K36 Methylation in Budding YeastKwan Yin LeeMathieu RangerMarc D. MeneghiniMuch of euchromatin regulation occurs through reversible methylation of histone H3 lysine-4 and lysine-36 (H3K4me and H3K36me). Using the budding yeast Saccharomyces cerevisiae, we previously found that levels of H3K4me modulated temperature sensitive alleles of the transcriptional elongation complex Spt6-Spn1 through an unknown H3K4me effector pathway. Here we identify the Rpd3S histone deacetylase complex as the H3K4me effector underlying these Spt6-Spn1 genetic interactions. Exploiting these Spt6-Spn1 genetic interactions, we show that H3K4me and H3K36me collaboratively impact Rpd3S function in an opposing manner. H3K36me is deposited by the histone methyltransferase Set2 and is known to promote Rpd3S function at RNA PolII transcribed open reading frames. Using genetic epistasis experiments, we find that mutations perturbing the Set2-H3K36me-Rpd3S pathway suppress the growth defects caused by temperature sensitive alleles of SPT6 and SPN1, illuminating that this pathway antagonizes Spt6-Spn1. Using these sensitive genetic assays, we also identify a role for H3K4me in antagonizing Rpd3S that functions through the Rpd3S subunit Rco1, which is known to bind H3 N-terminal tails in a manner that is prevented by H3K4me. Further genetic experiments reveal that the H3K4 and H3K36 demethylases JHD2 and RPH1 mediate this combinatorial control of Rpd3S. Finally, our studies also show that the Rpd3L complex, which acts at promoter-proximal regions of PolII transcribed genes, counters Rpd3S for genetic modulation of Spt6-Spn1, and that these two Rpd3 complexes balance the activities of each other. Our findings present the first evidence that H3K4me and H3K36me act combinatorially to control Rpd3S.http://g3journal.org/lookup/doi/10.1534/g3.118.200589Rpd3Shistone methylationSET1JHD2RPH1SET2 |
collection |
DOAJ |
language |
English |
format |
Article |
sources |
DOAJ |
author |
Kwan Yin Lee Mathieu Ranger Marc D. Meneghini |
spellingShingle |
Kwan Yin Lee Mathieu Ranger Marc D. Meneghini Combinatorial Genetic Control of Rpd3S Through Histone H3K4 and H3K36 Methylation in Budding Yeast G3: Genes, Genomes, Genetics Rpd3S histone methylation SET1 JHD2 RPH1 SET2 |
author_facet |
Kwan Yin Lee Mathieu Ranger Marc D. Meneghini |
author_sort |
Kwan Yin Lee |
title |
Combinatorial Genetic Control of Rpd3S Through Histone H3K4 and H3K36 Methylation in Budding Yeast |
title_short |
Combinatorial Genetic Control of Rpd3S Through Histone H3K4 and H3K36 Methylation in Budding Yeast |
title_full |
Combinatorial Genetic Control of Rpd3S Through Histone H3K4 and H3K36 Methylation in Budding Yeast |
title_fullStr |
Combinatorial Genetic Control of Rpd3S Through Histone H3K4 and H3K36 Methylation in Budding Yeast |
title_full_unstemmed |
Combinatorial Genetic Control of Rpd3S Through Histone H3K4 and H3K36 Methylation in Budding Yeast |
title_sort |
combinatorial genetic control of rpd3s through histone h3k4 and h3k36 methylation in budding yeast |
publisher |
Oxford University Press |
series |
G3: Genes, Genomes, Genetics |
issn |
2160-1836 |
publishDate |
2018-11-01 |
description |
Much of euchromatin regulation occurs through reversible methylation of histone H3 lysine-4 and lysine-36 (H3K4me and H3K36me). Using the budding yeast Saccharomyces cerevisiae, we previously found that levels of H3K4me modulated temperature sensitive alleles of the transcriptional elongation complex Spt6-Spn1 through an unknown H3K4me effector pathway. Here we identify the Rpd3S histone deacetylase complex as the H3K4me effector underlying these Spt6-Spn1 genetic interactions. Exploiting these Spt6-Spn1 genetic interactions, we show that H3K4me and H3K36me collaboratively impact Rpd3S function in an opposing manner. H3K36me is deposited by the histone methyltransferase Set2 and is known to promote Rpd3S function at RNA PolII transcribed open reading frames. Using genetic epistasis experiments, we find that mutations perturbing the Set2-H3K36me-Rpd3S pathway suppress the growth defects caused by temperature sensitive alleles of SPT6 and SPN1, illuminating that this pathway antagonizes Spt6-Spn1. Using these sensitive genetic assays, we also identify a role for H3K4me in antagonizing Rpd3S that functions through the Rpd3S subunit Rco1, which is known to bind H3 N-terminal tails in a manner that is prevented by H3K4me. Further genetic experiments reveal that the H3K4 and H3K36 demethylases JHD2 and RPH1 mediate this combinatorial control of Rpd3S. Finally, our studies also show that the Rpd3L complex, which acts at promoter-proximal regions of PolII transcribed genes, counters Rpd3S for genetic modulation of Spt6-Spn1, and that these two Rpd3 complexes balance the activities of each other. Our findings present the first evidence that H3K4me and H3K36me act combinatorially to control Rpd3S. |
topic |
Rpd3S histone methylation SET1 JHD2 RPH1 SET2 |
url |
http://g3journal.org/lookup/doi/10.1534/g3.118.200589 |
work_keys_str_mv |
AT kwanyinlee combinatorialgeneticcontrolofrpd3sthroughhistoneh3k4andh3k36methylationinbuddingyeast AT mathieuranger combinatorialgeneticcontrolofrpd3sthroughhistoneh3k4andh3k36methylationinbuddingyeast AT marcdmeneghini combinatorialgeneticcontrolofrpd3sthroughhistoneh3k4andh3k36methylationinbuddingyeast |
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1721333378182021120 |