Cell-Free Synthesis of Selenoproteins in High Yield and Purity for Selective Protein Tagging

Adarshi P. Welegedara; Ansis Maleckis; Ruchira Bandara; Mithun C. Mahawaththa; Iresha Dilhani Herath; Yi Jiun Tan; Angeliki Giannoulis; Daniella Goldfarb; Gottfried Otting; Thomas Huber

doi:10.1002/cbic.202000785

Cell-Free Synthesis of Selenoproteins in High Yield and Purity for Selective Protein Tagging

Adarshi P. Welegedara, Ansis Maleckis, Ruchira Bandara, Mithun C. Mahawaththa, Iresha Dilhani Herath, Yi Jiun Tan, Angeliki Giannoulis, Daniella Goldfarb, Gottfried Otting^*, Thomas Huber^*

^*Corresponding author for this work

Research School of Chemistry

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

5 Citations (Scopus)

Abstract

The selenol group of selenocysteine is much more nucleophilic than the thiol group of cysteine. Selenocysteine residues in proteins thus offer reactive points for rapid post-translational modification. Herein, we show that selenoproteins can be expressed in high yield and purity by cell-free protein synthesis by global substitution of cysteine by selenocysteine. Complete alkylation of solvent-exposed selenocysteine residues was achieved in 10 minutes with 4-chloromethylene dipicolinic acid (4Cl-MDPA) under conditions that left cysteine residues unchanged even after overnight incubation. Gd^III−Gd^III distances measured by double electron–electron resonance (DEER) experiments of maltose binding protein (MBP) containing two selenocysteine residues tagged with 4Cl-MDPA-Gd^III were indistinguishable from Gd^III−Gd^III distances measured of MBP containing cysteine reacted with 4Br-MDPA tags.

Original language	English
Pages (from-to)	1480-1486
Number of pages	7
Journal	ChemBioChem
Volume	22
Issue number	8
Early online date	14 Dec 2020
DOIs	https://doi.org/10.1002/cbic.202000785
Publication status	Published - 16 Apr 2021

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@article{a4817895b0df45aebd204a1ee39887e2,

title = "Cell-Free Synthesis of Selenoproteins in High Yield and Purity for Selective Protein Tagging",

abstract = "The selenol group of selenocysteine is much more nucleophilic than the thiol group of cysteine. Selenocysteine residues in proteins thus offer reactive points for rapid post-translational modification. Herein, we show that selenoproteins can be expressed in high yield and purity by cell-free protein synthesis by global substitution of cysteine by selenocysteine. Complete alkylation of solvent-exposed selenocysteine residues was achieved in 10 minutes with 4-chloromethylene dipicolinic acid (4Cl-MDPA) under conditions that left cysteine residues unchanged even after overnight incubation. GdIII−GdIII distances measured by double electron–electron resonance (DEER) experiments of maltose binding protein (MBP) containing two selenocysteine residues tagged with 4Cl-MDPA-GdIII were indistinguishable from GdIII−GdIII distances measured of MBP containing cysteine reacted with 4Br-MDPA tags.",

keywords = "electron paramagnetic resonance spectroscopy, paramagnetic tags, protein labeling, selenocysteine, selenoproteins",

author = "Welegedara, \{Adarshi P.\} and Ansis Maleckis and Ruchira Bandara and Mahawaththa, \{Mithun C.\} and \{Dilhani Herath\}, Iresha and \{Jiun Tan\}, Yi and Angeliki Giannoulis and Daniella Goldfarb and Gottfried Otting and Thomas Huber",

note = "{\textcopyright} 2020 Wiley-VCH GmbH",

year = "2021",

month = apr,

day = "16",

doi = "10.1002/cbic.202000785",

language = "English",

volume = "22",

pages = "1480--1486",

journal = "ChemBioChem",

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TY - JOUR

T1 - Cell-Free Synthesis of Selenoproteins in High Yield and Purity for Selective Protein Tagging

AU - Welegedara, Adarshi P.

AU - Maleckis, Ansis

AU - Bandara, Ruchira

AU - Mahawaththa, Mithun C.

AU - Dilhani Herath, Iresha

AU - Jiun Tan, Yi

AU - Giannoulis, Angeliki

AU - Goldfarb, Daniella

AU - Otting, Gottfried

AU - Huber, Thomas

PY - 2021/4/16

Y1 - 2021/4/16

N2 - The selenol group of selenocysteine is much more nucleophilic than the thiol group of cysteine. Selenocysteine residues in proteins thus offer reactive points for rapid post-translational modification. Herein, we show that selenoproteins can be expressed in high yield and purity by cell-free protein synthesis by global substitution of cysteine by selenocysteine. Complete alkylation of solvent-exposed selenocysteine residues was achieved in 10 minutes with 4-chloromethylene dipicolinic acid (4Cl-MDPA) under conditions that left cysteine residues unchanged even after overnight incubation. GdIII−GdIII distances measured by double electron–electron resonance (DEER) experiments of maltose binding protein (MBP) containing two selenocysteine residues tagged with 4Cl-MDPA-GdIII were indistinguishable from GdIII−GdIII distances measured of MBP containing cysteine reacted with 4Br-MDPA tags.

AB - The selenol group of selenocysteine is much more nucleophilic than the thiol group of cysteine. Selenocysteine residues in proteins thus offer reactive points for rapid post-translational modification. Herein, we show that selenoproteins can be expressed in high yield and purity by cell-free protein synthesis by global substitution of cysteine by selenocysteine. Complete alkylation of solvent-exposed selenocysteine residues was achieved in 10 minutes with 4-chloromethylene dipicolinic acid (4Cl-MDPA) under conditions that left cysteine residues unchanged even after overnight incubation. GdIII−GdIII distances measured by double electron–electron resonance (DEER) experiments of maltose binding protein (MBP) containing two selenocysteine residues tagged with 4Cl-MDPA-GdIII were indistinguishable from GdIII−GdIII distances measured of MBP containing cysteine reacted with 4Br-MDPA tags.

KW - electron paramagnetic resonance spectroscopy

KW - paramagnetic tags

KW - protein labeling

KW - selenocysteine

KW - selenoproteins

UR - https://www.scopus.com/pages/publications/85099827023

U2 - 10.1002/cbic.202000785

DO - 10.1002/cbic.202000785

M3 - Article

SN - 1439-4227

VL - 22

SP - 1480

EP - 1486

JO - ChemBioChem

JF - ChemBioChem

IS - 8

ER -

Cell-Free Synthesis of Selenoproteins in High Yield and Purity for Selective Protein Tagging

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