Site‐directed mutagenesis, in vivo electroporation and mass spectrometry in search for determinants of the subcellular targeting of Rab7b paralogue in the model eukaryote Paramecium octaurelia

Site‐directed mutagenesis, in vivo electroporation and mass spectrometry in search for determinants of the subcellular targeting of Rab7b paralogue in the model eukaryote Paramecium octaurelia

<p>Protein products of the paralogous genes resulting from the whole genome duplication may acquire new function. The role of post‐translational modifications (PTM) in proper targeting of <em>Paramecium</em> Rab7b paralogue – distinct from that of Rab7a directly involved in phagocy...

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Main Authors: E. Wyroba, P. Kwaśniak, K. Miller, K. Kobyłecki, M. Osińska
Format: Article
Language:English
Published: PAGEPress Publications 2016-04-01
Series:European Journal of Histochemistry
Subjects:
Point mutagenesis
electroporation
post-translational modifications
mass spectrometry
glycosylation
Rab7
Paramecium
recombinant proteins.
Online Access:http://www.ejh.it/index.php/ejh/article/view/2612
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spelling doaj-59ce1c9fd20e4544aa4265d33259b3712020-11-25T03:53:22ZengPAGEPress PublicationsEuropean Journal of Histochemistry 1121-760X2038-83062016-04-0160210.4081/ejh.2016.26121503Site‐directed mutagenesis, in vivo electroporation and mass spectrometry in search for determinants of the subcellular targeting of Rab7b paralogue in the model eukaryote Paramecium octaureliaE. Wyroba0P. Kwaśniak1K. Miller2K. Kobyłecki3M. Osińska4Nencki Institute of Experimental Biology of Polish Academy of SciencesNencki Institute of Experimental Biology of Polish Academy of SciencesNencki Institute of Experimental Biology of Polish Academy of SciencesNencki Institute of Experimental Biology of Polish Academy of SciencesNencki Institute of Experimental Biology of Polish Academy of Sciences<p>Protein products of the paralogous genes resulting from the whole genome duplication may acquire new function. The role of post‐translational modifications (PTM) in proper targeting of <em>Paramecium</em> Rab7b paralogue – distinct from that of Rab7a directly involved in phagocytosis ‐ was studied using point mutagenesis, proteomic analysis and double immunofluorescence after <em>in vivo</em> electroporation of the mutagenized protein. Here we show that substitution of Thr200 by Ala200 resulted in diminished incorporation of [P<sup>32</sup>] by 37.4% and of 32 [<sup>C14</sup><sup>–</sup>]UDP‐glucose by 24%, respectively, into recombinant Rab7b_200 in comparison to the non‐mutagenized control. Double confocal imaging revealed that Rab7b_200 was mistargeted upon electroporation into living cells contrary to non‐ mutagenized recombinant Rab7b correctly incorporated in the cytostome area. We identified the peptide ion at m/z=677.6<sup>3+</sup> characteristic for the glycan group attached to Thr200 in Rab7b using nano LC‐MS/MS and comparing the peptide map of this protein with that after deglycosylation with the mixture of five enzymes of different specificity. Based on the mass of this peptide ion and quantitative radioactive assays with [P<sup>32</sup>]and  [C<sup>14</sup><sup>‐</sup>]UDP‐ glucose, the suggested composition of the adduct attached to Thr200 might be (Hex)1(HexNAc)1(Phos)3 or (HexNAc)1 (Deoxyhexose)1 (Phos)1 (HexA)1. These data indicate that PTM of Thr200 located in the hypervariable C‐region of Rab7b in <em>Paramecium</em> is crucial for the proper localization/function of this protein. Moreover, these proteins differ also in other PTM: the number of phosphorylated amino acids in Rab7b is much higher than in Rab7a.   </p>http://www.ejh.it/index.php/ejh/article/view/2612Point mutagenesiselectroporationpost-translational modificationsmass spectrometryglycosylationRab7Parameciumrecombinant proteins.
collection DOAJ
language English
format Article
sources DOAJ
author E. Wyroba
P. Kwaśniak
K. Miller
K. Kobyłecki
M. Osińska
spellingShingle E. Wyroba
P. Kwaśniak
K. Miller
K. Kobyłecki
M. Osińska
Site‐directed mutagenesis, in vivo electroporation and mass spectrometry in search for determinants of the subcellular targeting of Rab7b paralogue in the model eukaryote Paramecium octaurelia
European Journal of Histochemistry
Point mutagenesis
electroporation
post-translational modifications
mass spectrometry
glycosylation
Rab7
Paramecium
recombinant proteins.
author_facet E. Wyroba
P. Kwaśniak
K. Miller
K. Kobyłecki
M. Osińska
author_sort E. Wyroba
title Site‐directed mutagenesis, in vivo electroporation and mass spectrometry in search for determinants of the subcellular targeting of Rab7b paralogue in the model eukaryote Paramecium octaurelia
title_short Site‐directed mutagenesis, in vivo electroporation and mass spectrometry in search for determinants of the subcellular targeting of Rab7b paralogue in the model eukaryote Paramecium octaurelia
title_full Site‐directed mutagenesis, in vivo electroporation and mass spectrometry in search for determinants of the subcellular targeting of Rab7b paralogue in the model eukaryote Paramecium octaurelia
title_fullStr Site‐directed mutagenesis, in vivo electroporation and mass spectrometry in search for determinants of the subcellular targeting of Rab7b paralogue in the model eukaryote Paramecium octaurelia
title_full_unstemmed Site‐directed mutagenesis, in vivo electroporation and mass spectrometry in search for determinants of the subcellular targeting of Rab7b paralogue in the model eukaryote Paramecium octaurelia
title_sort site‐directed mutagenesis, in vivo electroporation and mass spectrometry in search for determinants of the subcellular targeting of rab7b paralogue in the model eukaryote paramecium octaurelia
publisher PAGEPress Publications
series European Journal of Histochemistry
issn 1121-760X
2038-8306
publishDate 2016-04-01
description <p>Protein products of the paralogous genes resulting from the whole genome duplication may acquire new function. The role of post‐translational modifications (PTM) in proper targeting of <em>Paramecium</em> Rab7b paralogue – distinct from that of Rab7a directly involved in phagocytosis ‐ was studied using point mutagenesis, proteomic analysis and double immunofluorescence after <em>in vivo</em> electroporation of the mutagenized protein. Here we show that substitution of Thr200 by Ala200 resulted in diminished incorporation of [P<sup>32</sup>] by 37.4% and of 32 [<sup>C14</sup><sup>–</sup>]UDP‐glucose by 24%, respectively, into recombinant Rab7b_200 in comparison to the non‐mutagenized control. Double confocal imaging revealed that Rab7b_200 was mistargeted upon electroporation into living cells contrary to non‐ mutagenized recombinant Rab7b correctly incorporated in the cytostome area. We identified the peptide ion at m/z=677.6<sup>3+</sup> characteristic for the glycan group attached to Thr200 in Rab7b using nano LC‐MS/MS and comparing the peptide map of this protein with that after deglycosylation with the mixture of five enzymes of different specificity. Based on the mass of this peptide ion and quantitative radioactive assays with [P<sup>32</sup>]and  [C<sup>14</sup><sup>‐</sup>]UDP‐ glucose, the suggested composition of the adduct attached to Thr200 might be (Hex)1(HexNAc)1(Phos)3 or (HexNAc)1 (Deoxyhexose)1 (Phos)1 (HexA)1. These data indicate that PTM of Thr200 located in the hypervariable C‐region of Rab7b in <em>Paramecium</em> is crucial for the proper localization/function of this protein. Moreover, these proteins differ also in other PTM: the number of phosphorylated amino acids in Rab7b is much higher than in Rab7a.   </p>
topic Point mutagenesis
electroporation
post-translational modifications
mass spectrometry
glycosylation
Rab7
Paramecium
recombinant proteins.
url http://www.ejh.it/index.php/ejh/article/view/2612
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