Roman Meledin scite author profile

A strategy for the synthesis of dehydroalanine based diubiquitin activity probes is described. The site-specific introduction of dehydroalanine was achieved from diubiquitin bearing Cys residue near the scissile bond between two ubiquitins linked through Lys48, Lys63 or in a head to tail fashion. The probes were characterized for their activities with various deubiquitinases, which open new opportunities in studying deubiquitinases in various settings.

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Palladium‐Mediated Cleavage of Proteins with Thiazolidine‐Modified Backbone in Live Cells

Mann

Satish

Meledin

et al. 2019

Angew Chem Int Ed

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Chemical protein synthesis and biorthogonal modification chemistries allow production of unique proteins for arange of biological studies.B ond-forming reactions for siteselective protein labeling are commonly used in these endeavors.Selective bond-cleavage reactions,however,are muchless explored and still pose ag reat challenge.I na ddition, most of studies with modified proteins prepared by either total synthesis or semisynthesis have been applied mainly for in vitro experiments with very limited extension to live cells.Reported here is an approach for studying uniquely modified proteins containing at raceless cell delivery unit and palladium-based cleavable element for chemical activation, and monitoring the effect of these proteins in live cells.T his approach is demonstrated for the synthesis of ac aged ubiquitin-aldehyde, which was decaged for the inhibition of deubiquitinases in live cells.

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Protein ubiquitination via dehydroalanine: development and insights into the diastereoselective 1,4-addition step

et al. 2016

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We report a strategy for site-specific protein ubiquitination using dehydroalanine (Dha) chemistry for the preparation of ubiquitin conjugates bearing a very close mimic of the native isopeptide bond. Our approach relies on the selective formation of Dha followed by conjugation with hexapeptide bearing a thiol handle derived from the C-terminal of ubiquitin. Subsequently, the resulting synthetic intermediate undergoes native chemical ligation with the complementary part of the ubiquitin polypeptide. It has been proposed that the Michael addition step could result in the formation of a diastereomeric mixture as a result of unselective protonation of the enolate intermediate. It has also been proposed that the chiral protein environment may influence such an addition step. In the protein context these questions remain open and no experimental evidence was provided as to how such a protein environment affects the diastereoselectivity of the addition step. As was previously proposed for the conjugation step on protein bearing Dha, the isopeptide bond formation step in our study resulted in the construction of two protein diastereomers. To assign the ratio of these diastereomers, trypsinization coupled with high-pressure liquid chromatography analysis were performed. Moreover, the obtained peptide diastereomers were compared with identical synthetic peptides having defined stereogenic centers, which enabled the determination of the configuration of the isopeptide mimic in each diastereomer. Our study, which offers a new method for isopeptide bond formation and protein ubiquitination, gives insights into the parameters that affect the stereoselectivity of the addition step to Dha for chemical protein modifications.

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Diverse fate of ubiquitin chain moieties: The proximal is degraded with the target, and the distal protects the proximal from removal and recycles

Sun

Mali

Singh

et al. 2019

Proc. Natl. Acad. Sci. U.S.A.

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One of the enigmas in the ubiquitin (Ub) field is the requirement for a poly-Ub chain as a proteasomal targeting signal. The canonical chain appears to be longer than the distance between the two Ub-binding proteasomal receptors. Furthermore, genetic manipulation has shown that one receptor subunit is sufficient, which suggests that a single Ub can serve as a degradation signal. To shed light on this mystery, we chemically synthesized tetra-Ub, di-Ub (K48-based), and mono-Ub adducts of HA-α-globin, where the distal or proximal Ub moieties were tagged differentially with either Myc or Flag. When incubated in a crude cell extract, the distal Ub moiety in the tetra-Ub adduct was mostly removed by deubiquitinating enzymes (DUBs) and reconjugated to other substrates in the extract. In contrast, the proximal moiety was most likely degraded with the substrate. The efficacy of degradation was proportionate to the chain length; while tetra-Ub globin was an efficient substrate, with mono-Ub globin, we observed rapid removal of the Ub moiety with almost no degradation of the free globin. Taken together, these findings suggest that the proximal moieties are necessary for securing the association of the substrate with the proteasome along the proteolytic process, whereas the distal moieties are important in protecting the proximal moieties from premature deubiquitination. Interestingly, when the same experiment was carried out using purified 26S proteasome, mono- and tetra-Ub globin were similarly degraded, highlighting the roles of the entire repertoire of cellular DUBs in regulating the degradation of proteasomal substrates.

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Total chemical synthesis of ester-linked ubiquitinated proteins unravels their behavior with deubiquitinases

et al. 2018

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Roman Meledin

Dehydroalanine-Based Diubiquitin Activity Probes

Palladium‐Mediated Cleavage of Proteins with Thiazolidine‐Modified Backbone in Live Cells

Protein ubiquitination via dehydroalanine: development and insights into the diastereoselective 1,4-addition step

Diverse fate of ubiquitin chain moieties: The proximal is degraded with the target, and the distal protects the proximal from removal and recycles

Total chemical synthesis of ester-linked ubiquitinated proteins unravels their behavior with deubiquitinases

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