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Yeast‐based reporter assay system for identifying the requirements of intramembrane proteolysis by signal peptide peptidase of Arabidopsis thaliana

Signal peptide peptidase (SPP) is an aspartic protease with two active sites, YD and GXGD, in the transmembrane domain. SPP cleaves signal peptides, and the released fragments play key roles in the immune system, embryo development and protein turnover in cells. Despite SPP having an important funct...

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Autores principales: Kusunoki, Kenta, Hoshi, Masako, Tamura, Tomoko, Maeda, Tatsuya, Abe, Keiko, Asakura, Tomiko
Formato: Online Artículo Texto
Lenguaje:English
Publicado: John Wiley and Sons Inc. 2020
Materias:
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC7459403/
https://www.ncbi.nlm.nih.gov/pubmed/32686366
http://dx.doi.org/10.1002/2211-5463.12936
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author Kusunoki, Kenta
Hoshi, Masako
Tamura, Tomoko
Maeda, Tatsuya
Abe, Keiko
Asakura, Tomiko
author_facet Kusunoki, Kenta
Hoshi, Masako
Tamura, Tomoko
Maeda, Tatsuya
Abe, Keiko
Asakura, Tomiko
author_sort Kusunoki, Kenta
collection PubMed
description Signal peptide peptidase (SPP) is an aspartic protease with two active sites, YD and GXGD, in the transmembrane domain. SPP cleaves signal peptides, and the released fragments play key roles in the immune system, embryo development and protein turnover in cells. Despite SPP having an important function, a general system to identify the requirements of intramembrane proteolysis by SPP has not been developed because proteolysis occurs in the membrane. In this study, we first established a reporter assay system in yeast to verify the cleavage activity of the Arabidopsis thaliana SPP (AtSPP). Next, we screened candidate substrates of AtSPP from A. thaliana pollen and roots. In the pollen, 13 signal peptides with 'pollen' and 'cell wall' as gene ontology terms were selected. In the roots, mutants overexpressing AtSPP were constructed, and gene expression changes were compared with the wild‐type. Nine signal peptides expressed in the roots were selected. Then we used the candidate substrates in our reporter assay system to determine the requirements for proteolysis by AtSPP. Fifteen of 22 signal peptides were cleaved by AtSPP. The absence of the positively charged amino acids, His and Lys on the C terminus of the signal sequence, was observed in cleaved substrates. Moreover, mutation of a helix breaker‐to‐Leu substitution in the intramembrane region in substrates prevented cleavage by AtSPP. These results indicated that substrates of AtSPP required the helix breaker structure to be cleaved.
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spelling pubmed-74594032020-09-03 Yeast‐based reporter assay system for identifying the requirements of intramembrane proteolysis by signal peptide peptidase of Arabidopsis thaliana Kusunoki, Kenta Hoshi, Masako Tamura, Tomoko Maeda, Tatsuya Abe, Keiko Asakura, Tomiko FEBS Open Bio Research Articles Signal peptide peptidase (SPP) is an aspartic protease with two active sites, YD and GXGD, in the transmembrane domain. SPP cleaves signal peptides, and the released fragments play key roles in the immune system, embryo development and protein turnover in cells. Despite SPP having an important function, a general system to identify the requirements of intramembrane proteolysis by SPP has not been developed because proteolysis occurs in the membrane. In this study, we first established a reporter assay system in yeast to verify the cleavage activity of the Arabidopsis thaliana SPP (AtSPP). Next, we screened candidate substrates of AtSPP from A. thaliana pollen and roots. In the pollen, 13 signal peptides with 'pollen' and 'cell wall' as gene ontology terms were selected. In the roots, mutants overexpressing AtSPP were constructed, and gene expression changes were compared with the wild‐type. Nine signal peptides expressed in the roots were selected. Then we used the candidate substrates in our reporter assay system to determine the requirements for proteolysis by AtSPP. Fifteen of 22 signal peptides were cleaved by AtSPP. The absence of the positively charged amino acids, His and Lys on the C terminus of the signal sequence, was observed in cleaved substrates. Moreover, mutation of a helix breaker‐to‐Leu substitution in the intramembrane region in substrates prevented cleavage by AtSPP. These results indicated that substrates of AtSPP required the helix breaker structure to be cleaved. John Wiley and Sons Inc. 2020-08-07 /pmc/articles/PMC7459403/ /pubmed/32686366 http://dx.doi.org/10.1002/2211-5463.12936 Text en © 2020 The Authors. Published by FEBS Press and John Wiley & Sons Ltd. This is an open access article under the terms of the http://creativecommons.org/licenses/by/4.0/ License, which permits use, distribution and reproduction in any medium, provided the original work is properly cited.
spellingShingle Research Articles
Kusunoki, Kenta
Hoshi, Masako
Tamura, Tomoko
Maeda, Tatsuya
Abe, Keiko
Asakura, Tomiko
Yeast‐based reporter assay system for identifying the requirements of intramembrane proteolysis by signal peptide peptidase of Arabidopsis thaliana
title Yeast‐based reporter assay system for identifying the requirements of intramembrane proteolysis by signal peptide peptidase of Arabidopsis thaliana
title_full Yeast‐based reporter assay system for identifying the requirements of intramembrane proteolysis by signal peptide peptidase of Arabidopsis thaliana
title_fullStr Yeast‐based reporter assay system for identifying the requirements of intramembrane proteolysis by signal peptide peptidase of Arabidopsis thaliana
title_full_unstemmed Yeast‐based reporter assay system for identifying the requirements of intramembrane proteolysis by signal peptide peptidase of Arabidopsis thaliana
title_short Yeast‐based reporter assay system for identifying the requirements of intramembrane proteolysis by signal peptide peptidase of Arabidopsis thaliana
title_sort yeast‐based reporter assay system for identifying the requirements of intramembrane proteolysis by signal peptide peptidase of arabidopsis thaliana
topic Research Articles
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC7459403/
https://www.ncbi.nlm.nih.gov/pubmed/32686366
http://dx.doi.org/10.1002/2211-5463.12936
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