An N-Terminal Extension to UBA5 Adenylation Domain Boosts UFM1 Activation: Isoform-Specific Differences in Ubiquitin-like Protein Activation

Nadine Soudah; Prasanth Padala; Fouad Hassouna; Manoj Kumar; Bayan Mashahreh; Andrey A. Lebedev; Michail N. Isupov; Einav Cohen-Kfir; Reuven Wiener

doi:10.1016/j.jmb.2018.10.007

An N-Terminal Extension to UBA5 Adenylation Domain Boosts UFM1 Activation: Isoform-Specific Differences in Ubiquitin-like Protein Activation

Nadine Soudah, Prasanth Padala, Fouad Hassouna, Manoj Kumar, Bayan Mashahreh, Andrey A. Lebedev, Michail N. Isupov, Einav Cohen-Kfir, Reuven Wiener

Department of Biochemistry and Molecular Biology

The Hebrew University of Jerusalem

Research output: Contribution to journal › Article › peer-review

Abstract

Modification of proteins by the ubiquitin-like protein, UFM1, requires activation of UFM1 by the E1-activating enzyme, UBA5. In humans, UBA5 possesses two isoforms, each comprising an adenylation domain, but only one containing an N-terminal extension. Currently, the role of the N-terminal extension in UFM1 activation is not clear. Here we provide structural and biochemical data on UBA5 N-terminal extension to understand its contribution to UFM1 activation. The crystal structures of the UBA5 long isoform bound to ATP with and without UFM1 show that the N-terminus not only is directly involved in ATP binding but also affects how the adenylation domain interacts with ATP. Surprisingly, in the presence of the N-terminus, UBA5 no longer retains the 1:2 ratio of ATP to UBA5, but rather this becomes a 1:1 ratio. Accordingly, the N-terminus significantly increases the affinity of ATP to UBA5. Finally, the N-terminus, although not directly involved in the E2 binding, stimulates transfer of UFM1 from UBA5 to the E2, UFC1.

Original language	English
Pages (from-to)	463-478
Number of pages	16
Journal	Journal of Molecular Biology
Volume	431
Issue number	3
DOIs	https://doi.org/10.1016/j.jmb.2018.10.007
State	Published - 1 Feb 2019

Keywords

E1 activating enzymes
UBA5
UFM1
crystal structure
ubiquitin-like proteins

All Science Journal Classification (ASJC) codes

Biophysics
Structural Biology
Molecular Biology

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10.1016/j.jmb.2018.10.007

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title = "An N-Terminal Extension to UBA5 Adenylation Domain Boosts UFM1 Activation: Isoform-Specific Differences in Ubiquitin-like Protein Activation",

abstract = "Modification of proteins by the ubiquitin-like protein, UFM1, requires activation of UFM1 by the E1-activating enzyme, UBA5. In humans, UBA5 possesses two isoforms, each comprising an adenylation domain, but only one containing an N-terminal extension. Currently, the role of the N-terminal extension in UFM1 activation is not clear. Here we provide structural and biochemical data on UBA5 N-terminal extension to understand its contribution to UFM1 activation. The crystal structures of the UBA5 long isoform bound to ATP with and without UFM1 show that the N-terminus not only is directly involved in ATP binding but also affects how the adenylation domain interacts with ATP. Surprisingly, in the presence of the N-terminus, UBA5 no longer retains the 1:2 ratio of ATP to UBA5, but rather this becomes a 1:1 ratio. Accordingly, the N-terminus significantly increases the affinity of ATP to UBA5. Finally, the N-terminus, although not directly involved in the E2 binding, stimulates transfer of UFM1 from UBA5 to the E2, UFC1.",

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author = "Nadine Soudah and Prasanth Padala and Fouad Hassouna and Manoj Kumar and Bayan Mashahreh and Lebedev, {Andrey A.} and Isupov, {Michail N.} and Einav Cohen-Kfir and Reuven Wiener",

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year = "2019",

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doi = "10.1016/j.jmb.2018.10.007",

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T1 - An N-Terminal Extension to UBA5 Adenylation Domain Boosts UFM1 Activation

T2 - Isoform-Specific Differences in Ubiquitin-like Protein Activation

AU - Soudah, Nadine

AU - Padala, Prasanth

AU - Hassouna, Fouad

AU - Kumar, Manoj

AU - Mashahreh, Bayan

AU - Lebedev, Andrey A.

AU - Isupov, Michail N.

AU - Cohen-Kfir, Einav

AU - Wiener, Reuven

PY - 2019/2/1

Y1 - 2019/2/1

N2 - Modification of proteins by the ubiquitin-like protein, UFM1, requires activation of UFM1 by the E1-activating enzyme, UBA5. In humans, UBA5 possesses two isoforms, each comprising an adenylation domain, but only one containing an N-terminal extension. Currently, the role of the N-terminal extension in UFM1 activation is not clear. Here we provide structural and biochemical data on UBA5 N-terminal extension to understand its contribution to UFM1 activation. The crystal structures of the UBA5 long isoform bound to ATP with and without UFM1 show that the N-terminus not only is directly involved in ATP binding but also affects how the adenylation domain interacts with ATP. Surprisingly, in the presence of the N-terminus, UBA5 no longer retains the 1:2 ratio of ATP to UBA5, but rather this becomes a 1:1 ratio. Accordingly, the N-terminus significantly increases the affinity of ATP to UBA5. Finally, the N-terminus, although not directly involved in the E2 binding, stimulates transfer of UFM1 from UBA5 to the E2, UFC1.

AB - Modification of proteins by the ubiquitin-like protein, UFM1, requires activation of UFM1 by the E1-activating enzyme, UBA5. In humans, UBA5 possesses two isoforms, each comprising an adenylation domain, but only one containing an N-terminal extension. Currently, the role of the N-terminal extension in UFM1 activation is not clear. Here we provide structural and biochemical data on UBA5 N-terminal extension to understand its contribution to UFM1 activation. The crystal structures of the UBA5 long isoform bound to ATP with and without UFM1 show that the N-terminus not only is directly involved in ATP binding but also affects how the adenylation domain interacts with ATP. Surprisingly, in the presence of the N-terminus, UBA5 no longer retains the 1:2 ratio of ATP to UBA5, but rather this becomes a 1:1 ratio. Accordingly, the N-terminus significantly increases the affinity of ATP to UBA5. Finally, the N-terminus, although not directly involved in the E2 binding, stimulates transfer of UFM1 from UBA5 to the E2, UFC1.

KW - E1 activating enzymes

KW - UBA5

KW - UFM1

KW - crystal structure

KW - ubiquitin-like proteins

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DO - 10.1016/j.jmb.2018.10.007

M3 - مقالة

C2 - 30412706

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ER -

An N-Terminal Extension to UBA5 Adenylation Domain Boosts UFM1 Activation: Isoform-Specific Differences in Ubiquitin-like Protein Activation

Abstract

Keywords

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