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Insights into Ubiquitin Product Release in Hydrolysis Catalyzed by the Bacterial Deubiquitinase SdeA. / Sheedlo, Michael J.; Kenny, Sebastian; Podkorytov, Ivan S.; Brown, Kwame; Ma, Jia; Iyer, Shalini; Hewitt, Chad S.; Arbough, Trent; Mikhailovskii, Oleg; Flaherty, Daniel P.; Wilson, Mark A.; Skrynnikov, Nikolai R.; Das, Chittaranjan.

в: Biochemistry, Том 60, № 8, 02.03.2021, стр. 584-596.

Результаты исследований: Научные публикации в периодических изданияхстатьяРецензирование

Harvard

Sheedlo, MJ, Kenny, S, Podkorytov, IS, Brown, K, Ma, J, Iyer, S, Hewitt, CS, Arbough, T, Mikhailovskii, O, Flaherty, DP, Wilson, MA, Skrynnikov, NR & Das, C 2021, 'Insights into Ubiquitin Product Release in Hydrolysis Catalyzed by the Bacterial Deubiquitinase SdeA', Biochemistry, Том. 60, № 8, стр. 584-596. https://doi.org/10.1021/acs.biochem.0c00760

APA

Sheedlo, M. J., Kenny, S., Podkorytov, I. S., Brown, K., Ma, J., Iyer, S., Hewitt, C. S., Arbough, T., Mikhailovskii, O., Flaherty, D. P., Wilson, M. A., Skrynnikov, N. R., & Das, C. (2021). Insights into Ubiquitin Product Release in Hydrolysis Catalyzed by the Bacterial Deubiquitinase SdeA. Biochemistry, 60(8), 584-596. https://doi.org/10.1021/acs.biochem.0c00760

Vancouver

Sheedlo MJ, Kenny S, Podkorytov IS, Brown K, Ma J, Iyer S и пр. Insights into Ubiquitin Product Release in Hydrolysis Catalyzed by the Bacterial Deubiquitinase SdeA. Biochemistry. 2021 Март 2;60(8):584-596. https://doi.org/10.1021/acs.biochem.0c00760

Author

Sheedlo, Michael J. ; Kenny, Sebastian ; Podkorytov, Ivan S. ; Brown, Kwame ; Ma, Jia ; Iyer, Shalini ; Hewitt, Chad S. ; Arbough, Trent ; Mikhailovskii, Oleg ; Flaherty, Daniel P. ; Wilson, Mark A. ; Skrynnikov, Nikolai R. ; Das, Chittaranjan. / Insights into Ubiquitin Product Release in Hydrolysis Catalyzed by the Bacterial Deubiquitinase SdeA. в: Biochemistry. 2021 ; Том 60, № 8. стр. 584-596.

BibTeX

@article{ec10df56fa7646eea0b683c3ed60099d,
title = "Insights into Ubiquitin Product Release in Hydrolysis Catalyzed by the Bacterial Deubiquitinase SdeA",
abstract = "We report the co-crystal structure of the (catalytic Cys)-to-Ala mutant of the deubiquitinase domain of the Legionella pneumophila effector SdeA (SdeADUB) with its ubiquitin (Ub) product. Most of the intermolecular interactions are preserved in this product-bound structure compared to that of the previously characterized complex of SdeADUB with the suicide inhibitor ubiquitin vinylmethyl ester (Ub-VME), whose structure models the acyl-enzyme thioester intermediate. Nuclear magnetic resonance (NMR) titration studies show a chemical shift perturbation pattern that suggests that the same interactions also exist in solution. Isothermal titration calorimetry and NMR titration data reveal that the affinity of wild-type (WT) SdeADUB for Ub is significantly lower than that of the Cys-to-Ala mutant. This is potentially due to repulsive interaction between the thiolate ion of the catalytic Cys residue in WT SdeADUB and the carboxylate group of the C-terminal Gly76 residue in Ub. In the context of SdeADUB catalysis, this electrostatic repulsion arises after the hydrolysis of the scissile isopeptide bond in the acyl-enzyme intermediate and the consequent formation of the C-terminal carboxylic group in the Ub fragment. We hypothesize that this electrostatic repulsion may expedite the release of the Ub product by SdeADUB. We note that similar repulsive interactions may also occur in other deubiquitinases and hydrolases of ubiquitin-like protein modifiers and may constitute a fairly general mechanism of product release within this family. This is a potentially important feature for a family of enzymes that form extensive protein–protein interactions during enzyme–substrate engagement.",
author = "Sheedlo, {Michael J.} and Sebastian Kenny and Podkorytov, {Ivan S.} and Kwame Brown and Jia Ma and Shalini Iyer and Hewitt, {Chad S.} and Trent Arbough and Oleg Mikhailovskii and Flaherty, {Daniel P.} and Wilson, {Mark A.} and Skrynnikov, {Nikolai R.} and Chittaranjan Das",
note = "Publisher Copyright: {\textcopyright}",
year = "2021",
month = mar,
day = "2",
doi = "10.1021/acs.biochem.0c00760",
language = "English",
volume = "60",
pages = "584--596",
journal = "Biochemistry",
issn = "0006-2960",
publisher = "American Chemical Society",
number = "8",

}

RIS

TY - JOUR

T1 - Insights into Ubiquitin Product Release in Hydrolysis Catalyzed by the Bacterial Deubiquitinase SdeA

AU - Sheedlo, Michael J.

AU - Kenny, Sebastian

AU - Podkorytov, Ivan S.

AU - Brown, Kwame

AU - Ma, Jia

AU - Iyer, Shalini

AU - Hewitt, Chad S.

AU - Arbough, Trent

AU - Mikhailovskii, Oleg

AU - Flaherty, Daniel P.

AU - Wilson, Mark A.

AU - Skrynnikov, Nikolai R.

AU - Das, Chittaranjan

N1 - Publisher Copyright: ©

PY - 2021/3/2

Y1 - 2021/3/2

N2 - We report the co-crystal structure of the (catalytic Cys)-to-Ala mutant of the deubiquitinase domain of the Legionella pneumophila effector SdeA (SdeADUB) with its ubiquitin (Ub) product. Most of the intermolecular interactions are preserved in this product-bound structure compared to that of the previously characterized complex of SdeADUB with the suicide inhibitor ubiquitin vinylmethyl ester (Ub-VME), whose structure models the acyl-enzyme thioester intermediate. Nuclear magnetic resonance (NMR) titration studies show a chemical shift perturbation pattern that suggests that the same interactions also exist in solution. Isothermal titration calorimetry and NMR titration data reveal that the affinity of wild-type (WT) SdeADUB for Ub is significantly lower than that of the Cys-to-Ala mutant. This is potentially due to repulsive interaction between the thiolate ion of the catalytic Cys residue in WT SdeADUB and the carboxylate group of the C-terminal Gly76 residue in Ub. In the context of SdeADUB catalysis, this electrostatic repulsion arises after the hydrolysis of the scissile isopeptide bond in the acyl-enzyme intermediate and the consequent formation of the C-terminal carboxylic group in the Ub fragment. We hypothesize that this electrostatic repulsion may expedite the release of the Ub product by SdeADUB. We note that similar repulsive interactions may also occur in other deubiquitinases and hydrolases of ubiquitin-like protein modifiers and may constitute a fairly general mechanism of product release within this family. This is a potentially important feature for a family of enzymes that form extensive protein–protein interactions during enzyme–substrate engagement.

AB - We report the co-crystal structure of the (catalytic Cys)-to-Ala mutant of the deubiquitinase domain of the Legionella pneumophila effector SdeA (SdeADUB) with its ubiquitin (Ub) product. Most of the intermolecular interactions are preserved in this product-bound structure compared to that of the previously characterized complex of SdeADUB with the suicide inhibitor ubiquitin vinylmethyl ester (Ub-VME), whose structure models the acyl-enzyme thioester intermediate. Nuclear magnetic resonance (NMR) titration studies show a chemical shift perturbation pattern that suggests that the same interactions also exist in solution. Isothermal titration calorimetry and NMR titration data reveal that the affinity of wild-type (WT) SdeADUB for Ub is significantly lower than that of the Cys-to-Ala mutant. This is potentially due to repulsive interaction between the thiolate ion of the catalytic Cys residue in WT SdeADUB and the carboxylate group of the C-terminal Gly76 residue in Ub. In the context of SdeADUB catalysis, this electrostatic repulsion arises after the hydrolysis of the scissile isopeptide bond in the acyl-enzyme intermediate and the consequent formation of the C-terminal carboxylic group in the Ub fragment. We hypothesize that this electrostatic repulsion may expedite the release of the Ub product by SdeADUB. We note that similar repulsive interactions may also occur in other deubiquitinases and hydrolases of ubiquitin-like protein modifiers and may constitute a fairly general mechanism of product release within this family. This is a potentially important feature for a family of enzymes that form extensive protein–protein interactions during enzyme–substrate engagement.

UR - http://www.scopus.com/inward/record.url?scp=85101593643&partnerID=8YFLogxK

UR - https://www.mendeley.com/catalogue/0fd4d772-4091-33a3-a06c-e56a2b0a079b/

U2 - 10.1021/acs.biochem.0c00760

DO - 10.1021/acs.biochem.0c00760

M3 - Article

VL - 60

SP - 584

EP - 596

JO - Biochemistry

JF - Biochemistry

SN - 0006-2960

IS - 8

ER -

ID: 74224146