Matthew D. R. Cadorin scite author profile

e Rtt109 is a fungal histone acetyltransferase (HAT) that catalyzes histone H3 acetylation functionally associated with chromatin assembly. Rtt109-mediated H3 acetylation involves two histone chaperones, Asf1 and Vps75. In vivo, Rtt109 requires both chaperones for histone H3 lysine 9 acetylation (H3K9ac) but only Asf1 for full H3K56ac. In vitro, Rtt109-Vps75 catalyzes both H3K9ac and H3K56ac, whereas Rtt109-Asf1 catalyzes only H3K56ac. In this study, we extend the in vitro chaperone-associated substrate specificity of Rtt109 by showing that it acetylates vertebrate linker histone in the presence of Vps75 but not Asf1. In addition, we demonstrate that in Saccharomyces cerevisiae a short basic sequence at the carboxyl terminus of Rtt109 (Rtt109C) is required for H3K9ac in vivo. Furthermore, through in vitro and in vivo studies, we demonstrate that Rtt109C is required for optimal H3K56ac by the HAT in the presence of full-length Asf1. When Rtt109C is absent, Vps75 becomes important for H3K56ac by Rtt109 in vivo. In addition, we show that lysine 290 (K290) in Rtt109 is required in vivo for Vps75 to enhance the activity of the HAT. This is the first in vivo evidence for a role for Vps75 in H3K56ac. Taken together, our results contribute to a better understanding of chaperone control of Rtt109-mediated H3 acetylation.

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Genetic and Proteomic Analysis of RNA Polymerase Ii-Interacting Complexes Mediator and Integrator in the Ciliated Protozoan Tetrahymena Thermophila

Cadorin¹

2023

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In most eukaryotes, the largest subunit of RNAPII, Rpb1, contains a conserved carboxyterminal domain (CTD) containing a canonical structure of heptapeptide repeats. Two protein complexes of interest, Mediator and Integrator, are known to interact with this CTD in all eukaryotic models they have been described in to date. Recently, orthologs of Mediator and Integrator subunits have been identified within the ciliated protozoan Tetrahymena thermophila; one of the few eukaryotic lineages to lack a canonically organized CTD. To begin to characterize putative Mediator and Integrator complexes within T. thermophila, I engineered appropriate macronuclear tagging and knockout cassettes. Although the Tetrahymena MED31 ortholog was unable to rescue the slow growth phenotype of a yeast MED31 knockout, or co-purify with yeast Med8-TAP, I identified subunit Med3 as a member of the Med31 interactome in T. thermophila through tandem affinity purification coupled with mass spectrometry. I also targeted the Tetrahymena INTS6 locus for knockout as determined by colony PCR. If Mediator and Integrator exist in Tetrahymena despite its divergent CTD of Rpb1, perhaps these complexes have CTD-independent functions beyond what can be effectively studied using conventional model systems.

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Genetic and Proteomic Analysis of RNA Polymerase Ii-Interacting Complexes Mediator and Integrator in the Ciliated Protozoan Tetrahymena Thermophila

Cadorin¹

2023

Preprint

0

View full text Add to dashboard Cite

In most eukaryotes, the largest subunit of RNAPII, Rpb1, contains a conserved carboxyterminal domain (CTD) containing a canonical structure of heptapeptide repeats. Two protein complexes of interest, Mediator and Integrator, are known to interact with this CTD in all eukaryotic models they have been described in to date. Recently, orthologs of Mediator and Integrator subunits have been identified within the ciliated protozoan Tetrahymena thermophila; one of the few eukaryotic lineages to lack a canonically organized CTD. To begin to characterize putative Mediator and Integrator complexes within T. thermophila, I engineered appropriate macronuclear tagging and knockout cassettes. Although the Tetrahymena MED31 ortholog was unable to rescue the slow growth phenotype of a yeast MED31 knockout, or co-purify with yeast Med8-TAP, I identified subunit Med3 as a member of the Med31 interactome in T. thermophila through tandem affinity purification coupled with mass spectrometry. I also targeted the Tetrahymena INTS6 locus for knockout as determined by colony PCR. If Mediator and Integrator exist in Tetrahymena despite its divergent CTD of Rpb1, perhaps these complexes have CTD-independent functions beyond what can be effectively studied using conventional model systems.

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Matthew D. R. Cadorin

The Med31 Conserved Component of the Divergent Mediator Complex in Tetrahymena thermophila Participates in Developmental Regulation

The Carboxyl Terminus of Rtt109 Functions in Chaperone Control of Histone Acetylation

Genetic and Proteomic Analysis of RNA Polymerase Ii-Interacting Complexes Mediator and Integrator in the Ciliated Protozoan Tetrahymena Thermophila

Genetic and Proteomic Analysis of RNA Polymerase Ii-Interacting Complexes Mediator and Integrator in the Ciliated Protozoan Tetrahymena Thermophila

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