Accessing human selenoproteins through chemical protein synthesis

L. Dery; P. Sai Reddy; S. Dery; R. Mousa; O. Ktorza; A. Talhami; N. Metanis

doi:10.1039/c6sc04123j

Accessing human selenoproteins through chemical protein synthesis

L. Dery, P. Sai Reddy, S. Dery, R. Mousa, O. Ktorza, A. Talhami, N. Metanis

Institute of Chemistry

The Hebrew University of Jerusalem

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

Abstract

The human body contains 25 selenoproteins, which contain in their sequence the twenty-first encoded amino acid, selenocysteine. About a dozen of these proteins remain functionally uncharacterized or poorly studied. Challenges in accessing these selenoproteins using traditional recombinant expressions have prevented biological characterization thus far. Chemical protein synthesis has the potential to overcome these hurdles. Here we report the first total chemical syntheses of two human selenoproteins, selenoprotein M (SELM) and selenoprotein W (SELW). The synthesis of the more challenging protein SELM was enabled using recent advances in the field of selenocysteine chemistry. This approach allows the preparation of selenoproteins in milligram quantities and in homogenous form, which should open new horizons for future studies to pursue a fuller biological understanding of their role in health and disease.

Original language	English
Pages (from-to)	1922-1926
Number of pages	5
Journal	Chemical Science
Volume	8
Issue number	3
DOIs	https://doi.org/10.1039/c6sc04123j
State	Published - 2017

All Science Journal Classification (ASJC) codes

General Chemistry

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10.1039/c6sc04123j

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title = "Accessing human selenoproteins through chemical protein synthesis",

abstract = "The human body contains 25 selenoproteins, which contain in their sequence the twenty-first encoded amino acid, selenocysteine. About a dozen of these proteins remain functionally uncharacterized or poorly studied. Challenges in accessing these selenoproteins using traditional recombinant expressions have prevented biological characterization thus far. Chemical protein synthesis has the potential to overcome these hurdles. Here we report the first total chemical syntheses of two human selenoproteins, selenoprotein M (SELM) and selenoprotein W (SELW). The synthesis of the more challenging protein SELM was enabled using recent advances in the field of selenocysteine chemistry. This approach allows the preparation of selenoproteins in milligram quantities and in homogenous form, which should open new horizons for future studies to pursue a fuller biological understanding of their role in health and disease.",

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doi = "10.1039/c6sc04123j",

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AU - Dery, L.

AU - Reddy, P. Sai

AU - Dery, S.

AU - Mousa, R.

AU - Ktorza, O.

AU - Talhami, A.

AU - Metanis, N.

PY - 2017

Y1 - 2017

N2 - The human body contains 25 selenoproteins, which contain in their sequence the twenty-first encoded amino acid, selenocysteine. About a dozen of these proteins remain functionally uncharacterized or poorly studied. Challenges in accessing these selenoproteins using traditional recombinant expressions have prevented biological characterization thus far. Chemical protein synthesis has the potential to overcome these hurdles. Here we report the first total chemical syntheses of two human selenoproteins, selenoprotein M (SELM) and selenoprotein W (SELW). The synthesis of the more challenging protein SELM was enabled using recent advances in the field of selenocysteine chemistry. This approach allows the preparation of selenoproteins in milligram quantities and in homogenous form, which should open new horizons for future studies to pursue a fuller biological understanding of their role in health and disease.

AB - The human body contains 25 selenoproteins, which contain in their sequence the twenty-first encoded amino acid, selenocysteine. About a dozen of these proteins remain functionally uncharacterized or poorly studied. Challenges in accessing these selenoproteins using traditional recombinant expressions have prevented biological characterization thus far. Chemical protein synthesis has the potential to overcome these hurdles. Here we report the first total chemical syntheses of two human selenoproteins, selenoprotein M (SELM) and selenoprotein W (SELW). The synthesis of the more challenging protein SELM was enabled using recent advances in the field of selenocysteine chemistry. This approach allows the preparation of selenoproteins in milligram quantities and in homogenous form, which should open new horizons for future studies to pursue a fuller biological understanding of their role in health and disease.

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DO - 10.1039/c6sc04123j

M3 - مقالة

SN - 2041-6520

VL - 8

SP - 1922

EP - 1926

JO - Chemical Science

JF - Chemical Science

IS - 3

ER -

Accessing human selenoproteins through chemical protein synthesis

Abstract

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