Devin M. Ray scite author profile

Higher order compaction of the eukaryotic genome is key to the regulation of all DNA-templated processes, including transcription. This tightly controlled process involves the formation of mononucleosomes, the fundamental unit of chromatin, packaged into higher-order architectures in an H1 linker histone-dependent process. While much work has been done to delineate the precise mechanism of this event in vitro and in vivo, major gaps still exist, primarily due to a lack of molecular tools. Specifically, there has never been a successful purification and biochemical characterization of all human H1 variants. Here we present a robust method to purify H1 and illustrate its utility in the purification of all somatic variants and one germline variant. In addition, we performed a first ever side-by-side biochemical comparison, which revealed a gradient of nucleosome binding affinities and compaction capabilities. These data provide new insight into H1 redundancy and lay the groundwork for the mechanistic investigation of disease-driving mutations.

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Chemical Labeling and Enrichment of Histone Glyoxal Adducts

Ray

Jennings

Maksimovic

et al. 2022

ACS Chem. Biol.

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Because of their long half-lives and highly nucleophilic tails, histones are particularly susceptible to accumulating nonenzymatic covalent modifications, such as glycation. The resulting modifications can have profound effects on cellular physiology due to the regulatory role histones play in all DNA-templated processes; however, the complexity of Maillard chemistry on proteins makes tracking and enriching for glycated proteins a challenging task. Here, we characterize glyoxal (GO) modifications on histones using quantitative proteomics and an aniline-derived GO-reactive probe. In addition, we leverage this chemistry to demonstrate that the glycation regulatory proteins DJ-1 and GLO1 reduce levels of histone GO adducts. Finally, we employ a two-round pull-down method to enrich histone H3 GO glycation and map these adducts to specific chromatin regions.

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Nitrimines as Reagents for Metal‐Free Formal C(sp²)–C(sp²) Cross‐Coupling Reactions

2014

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Nitrimines are employed as powerful reagents for metal-free formal C(sp(2) )-C(sp(2) ) cross-coupling reactions. The new chemical process is tolerant of a wide array of nitrimine and heterocyclic coupling partners giving rise to the corresponding di- or trisubstituted alkenes, typically in high yield and with high stereoselectivity. This method is ideal for the metal-free construction of heterocycle-containing drug targets, such as phenprocoumon.

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Utilizing intein trans-splicing for in vivo generation of site-specifically modified proteins

Maksimovic

Ray

Zheng

et al. 2019

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Devin M. Ray

A Robust Method for the Purification and Characterization of Recombinant Human Histone H1 Variants

Chemical Labeling and Enrichment of Histone Glyoxal Adducts

Nitrimines as Reagents for Metal‐Free Formal C(sp²)–C(sp²) Cross‐Coupling Reactions

Utilizing intein trans-splicing for in vivo generation of site-specifically modified proteins

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Devin M. Ray

A Robust Method for the Purification and Characterization of Recombinant Human Histone H1 Variants

Chemical Labeling and Enrichment of Histone Glyoxal Adducts

Nitrimines as Reagents for Metal‐Free Formal C(sp2)–C(sp2) Cross‐Coupling Reactions

Utilizing intein trans-splicing for in vivo generation of site-specifically modified proteins

Contact Info

Product

Resources

About

Nitrimines as Reagents for Metal‐Free Formal C(sp²)–C(sp²) Cross‐Coupling Reactions