2018
DOI: 10.1186/s13072-018-0188-y
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Same agent, different messages: insight into transcriptional regulation by SIN3 isoforms

Abstract: SIN3 is a global transcriptional coregulator that governs expression of a large repertoire of gene targets. It is an important player in gene regulation, which can repress or activate diverse gene targets in a context-dependent manner. SIN3 is required for several vital biological processes such as cell proliferation, energy metabolism, organ development, and cellular senescence. The functional flexibility of SIN3 arises from its ability to interact with a large variety of partners through protein interaction … Show more

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Cited by 42 publications
(44 citation statements)
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“…SIN3A CpG 401 was deferentially methylated between non-responders (I NR1–11) and responders (I R1–19) ( p *, 0.024), with the non-responders exhibiting higher methylation rates across the entire CpG DNA sequence (data not shown). Since it is not a tissue-specific factor [ 32 ], the statistically significant differentiation of SIN3A methylation with a consequent differential expression of its protein product within PBMCs was not an unexpected result.…”
Section: Resultsmentioning
confidence: 99%
See 1 more Smart Citation
“…SIN3A CpG 401 was deferentially methylated between non-responders (I NR1–11) and responders (I R1–19) ( p *, 0.024), with the non-responders exhibiting higher methylation rates across the entire CpG DNA sequence (data not shown). Since it is not a tissue-specific factor [ 32 ], the statistically significant differentiation of SIN3A methylation with a consequent differential expression of its protein product within PBMCs was not an unexpected result.…”
Section: Resultsmentioning
confidence: 99%
“…The methylation profile of all CpG islands gave significant results only when the research focused on well-characterized single erythroid colonies (BFU-Es), with the unique exception of the SIN3A CpG 401, which is not an erythroid tissue-specific factor. The SIN3A protein consists of multiple protein interaction domains and contacts a variety of binding partners to perform its biological function, whereas it is considered to co-operate with histone-modifying complexes exhibiting a global transcription regulatory property [ 32 ]. Hence, SIN3A was differentially methylated ( p *, 0.024) between the in vivo samples (PBMCs) of HU non-responders and HU responders.…”
Section: Discussionmentioning
confidence: 99%
“…In other organisms, Sin3 proteins are found in multiple complexes of heterogeneous composition (Chaubal and Pile 2018). At least two general types of SIN3 complex exist, which contain SAP30 and SDS3 homologs, or like Rpd3S, Rco1/Pf1 and Eaf3/MRG15 homologs.…”
Section: Discussionmentioning
confidence: 99%
“…A prevailing view is that the regulatory functions of SET1/COMPASS and Rpd3/Sin3 complexes are context dependent, but their mechanisms are not well understood (Chaubal and Pile, 2018;Howe et al, 2017). Given the biochemical activities of complex components, it is plausible that co-occupancy alters gene expression through changes in acetylation and methylation dynamics.…”
Section: Discussionmentioning
confidence: 99%
“…These complexes include the nucleosome remodeling (NuRD) complex, corepressor for REST (CoREST) and the SIN3 complex, named for the scaffolding factor SIN3 6 . To add to the complexity, multiple distinct SIN3 complexes are present in a single organism 7 . These SIN3 HDAC complexes vary in subunit isoform specificity and accessory factor composition.…”
Section: Introductionmentioning
confidence: 99%