Patrick M. M. Shelton scite author profile

Lysine-specific demethylase 1 (LSD1) downregulates eukaryotic gene activity by demethylating mono and dimethylated Lys4 in histone H3. Elucidating the biochemical crosstalk of LSD1 with histone post-translational modifications (PTMs) is essential for developing LSD1-targeted therapeutics in human cancers. We interrogated the small ubiquitin-like modifier (SUMO) driven regulation of LSD1 activity with semisynthetic nucleosomes containing site-specifically methylated and sumoylated histones. We discovered that nucleosomes containing sumoylated histone H4 (suH4), a modification associated with gene repression, stimulate LSD1 activity by a mechanism dependent upon the SUMO-interaction motif in CoREST. Furthermore, the stimulatory effect of suH4 was spatially limited and did not extend to the demethylation of adjacent non-sumoylated nucleosomes. Thus, we have identified histone modification by SUMO as the first PTM that stimulates intranucleosomal demethylation by the developmentally critical LSD1-CoREST complex.

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Structural basis for helicase-polymerase coupling in the SARS-CoV-2 replication-transcription complex

Chen

Malone

Llewellyn

et al. 2020

Preprint

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SUMMARYSARS-CoV-2 is the causative agent of the 2019-2020 pandemic. The SARS-CoV-2 genome is replicated-transcribed by the RNA-dependent RNA polymerase holoenzyme (subunits nsp7/nsp82/nsp12) along with a cast of accessory factors. One of these factors is the nsp13 helicase. Both the holo-RdRp and nsp13 are essential for viral replication and are targets for treating the disease COVID-19. Here we present cryo-electron microscopic structures of the SARS-CoV-2 holo-RdRp with an RNA template-product in complex with two molecules of the nsp13 helicase. The Nidovirus-order-specific N-terminal domains of each nsp13 interact with the N-terminal extension of each copy of nsp8. One nsp13 also contacts the nsp12-thumb. The structure places the nucleic acid-binding ATPase domains of the helicase directly in front of the replicating-transcribing holo-RdRp, constraining models for nsp13 function. We also observe ADP-Mg2+ bound in the nsp12 N-terminal nidovirus RdRp-associated nucleotidyltransferase domain, detailing a new pocket for anti-viral therapeutic development.

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Force-dependent stimulation of RNA unwinding by SARS-CoV-2 nsp13 helicase

Mickolajczyk

Shelton

Grasso

et al. 2021

Biophysical Journal

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A Facile N-Mercaptoethoxyglycinamide (MEGA) Linker Approach to Peptide Thioesterification and Cyclization

2017

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The C-terminal selective electrophilic activation of polypeptides is essential for site-specific peptide modification and conjugation techniques such as Native Chemical Ligation (NCL). Peptide C-terminal α-thioesters are particularly valuable precursors for NCL, due to their hydrolytic stability in aqueous buffers and reactivity toward thiol nucleophiles. The synthesis of peptide α-thioesters, however, requires harsh acidic conditions or complex chemical manipulations, which ultimately limits their functional group compatibility and broad utility. Herein, we report a readily accessible N-mercaptoethoxyglycinamide (MEGA) solid-phase linker for the facile synthesis of latent peptide α-thioesters. Incubating peptide-MEGA sequences with 2-mercaptoethanesulfonic acid at mildly acidic pH yielded α-thioesters that were directly used in NCL without purification. The MEGA linker yielded robust access to peptide α-thioesters ranging in length from 4 to 35 amino acids, and greatly simplified the synthesis of cyclic peptides. Finally, the high utility of MEGA was demonstrated by the one-pot synthesis of a functional analog of the Sunflower Trypsin Inhibitor 1.

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