A comparative glycoproteome study of developing endosperm in the hexose-deficient miniature1 (mn1) seed mutant and its wild type Mn1 in maize

A comparative glycoproteome study of developing endosperm in the hexose-deficient miniature1 (mn1) seed mutant and its wild type Mn1 in maize

In maize developing seeds, transfer cells are prominently located at the basal endosperm transfer layer (BETL). As the first filial cell layer, BETL is a gateway to sugars, nutrients and water from mother plant; and anchor of numerous functions such as sucrose turnover, auxin and cytokinin biosynthe...

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Main Authors: Cecilia eSilva-Sanchez, Sixue eChen, Jinxi eLi, Prem S. Chourey
Format: Article
Language:English
Published: Frontiers Media S.A. 2014-02-01
Series:Frontiers in Plant Science
Subjects:
Gene Expression
Maize
seed development
transfer cells
Sugar methabolism
Online Access:http://journal.frontiersin.org/Journal/10.3389/fpls.2014.00063/full
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spelling doaj-590709480b5049f0a442614fbbe7e4c12020-11-24T22:55:12ZengFrontiers Media S.A.Frontiers in Plant Science1664-462X2014-02-01510.3389/fpls.2014.0006365090A comparative glycoproteome study of developing endosperm in the hexose-deficient miniature1 (mn1) seed mutant and its wild type Mn1 in maizeCecilia eSilva-Sanchez0Sixue eChen1Sixue eChen2Jinxi eLi3Prem S. Chourey4Prem S. Chourey5University of FloridaUniversity of FloridaUniversity of FloridaUniversity of FloridaUSDA-Agricultural Research Service,University of FloridaIn maize developing seeds, transfer cells are prominently located at the basal endosperm transfer layer (BETL). As the first filial cell layer, BETL is a gateway to sugars, nutrients and water from mother plant; and anchor of numerous functions such as sucrose turnover, auxin and cytokinin biosynthesis/accumulation, energy metabolism, defense response, and signaling between maternal and filial generations. Previous studies showed that basal developing endosperms of miniature1 (mn1) mutant seeds lacking the Mn1-encoded cell wall invertase II, are also deficient for hexose. Given the role of glucose as one of the key sugars in protein glycosylation and proper protein folding; we performed a comparative large scale glycoproteome profiling of total proteins of these two genotypes (mn1 mutant vs Mn1 wild type) using 2D gel electrophoresis and glycosylation/total protein staining, followed by image analysis. Protein identification was done by LC-MS/MS. A total of 413 spots were detected; from which, 113 spots matched between the two genotypes. Of these, 45 showed > 20% decrease/increase in glycosylation level and were selected for protein identification. A large number of identified proteins showed decreased glycosylation levels in mn1 developing endosperms as compared to the Mn1. Functional classification of proteins, showed mainly of post-translational modification, protein turnover, chaperone activities, carbohydrate and amino acid biosynthesis / transport, and cell wall biosynthesis. These proteins and activities were related to endoplasmic reticulum (ER) stress and unfolded protein response (UPR) as a result of the low glycolsylation levels of the mutant proteins. Overall, these results provide for the first time a global glycoproteome profile of maize BETL-enriched basal endosperm to better understand their role in seed development in maize.http://journal.frontiersin.org/Journal/10.3389/fpls.2014.00063/fullGene ExpressionMaizeseed developmenttransfer cellsSugar methabolism
collection DOAJ
language English
format Article
sources DOAJ
author Cecilia eSilva-Sanchez
Sixue eChen
Sixue eChen
Jinxi eLi
Prem S. Chourey
Prem S. Chourey
spellingShingle Cecilia eSilva-Sanchez
Sixue eChen
Sixue eChen
Jinxi eLi
Prem S. Chourey
Prem S. Chourey
A comparative glycoproteome study of developing endosperm in the hexose-deficient miniature1 (mn1) seed mutant and its wild type Mn1 in maize
Frontiers in Plant Science
Gene Expression
Maize
seed development
transfer cells
Sugar methabolism
author_facet Cecilia eSilva-Sanchez
Sixue eChen
Sixue eChen
Jinxi eLi
Prem S. Chourey
Prem S. Chourey
author_sort Cecilia eSilva-Sanchez
title A comparative glycoproteome study of developing endosperm in the hexose-deficient miniature1 (mn1) seed mutant and its wild type Mn1 in maize
title_short A comparative glycoproteome study of developing endosperm in the hexose-deficient miniature1 (mn1) seed mutant and its wild type Mn1 in maize
title_full A comparative glycoproteome study of developing endosperm in the hexose-deficient miniature1 (mn1) seed mutant and its wild type Mn1 in maize
title_fullStr A comparative glycoproteome study of developing endosperm in the hexose-deficient miniature1 (mn1) seed mutant and its wild type Mn1 in maize
title_full_unstemmed A comparative glycoproteome study of developing endosperm in the hexose-deficient miniature1 (mn1) seed mutant and its wild type Mn1 in maize
title_sort comparative glycoproteome study of developing endosperm in the hexose-deficient miniature1 (mn1) seed mutant and its wild type mn1 in maize
publisher Frontiers Media S.A.
series Frontiers in Plant Science
issn 1664-462X
publishDate 2014-02-01
description In maize developing seeds, transfer cells are prominently located at the basal endosperm transfer layer (BETL). As the first filial cell layer, BETL is a gateway to sugars, nutrients and water from mother plant; and anchor of numerous functions such as sucrose turnover, auxin and cytokinin biosynthesis/accumulation, energy metabolism, defense response, and signaling between maternal and filial generations. Previous studies showed that basal developing endosperms of miniature1 (mn1) mutant seeds lacking the Mn1-encoded cell wall invertase II, are also deficient for hexose. Given the role of glucose as one of the key sugars in protein glycosylation and proper protein folding; we performed a comparative large scale glycoproteome profiling of total proteins of these two genotypes (mn1 mutant vs Mn1 wild type) using 2D gel electrophoresis and glycosylation/total protein staining, followed by image analysis. Protein identification was done by LC-MS/MS. A total of 413 spots were detected; from which, 113 spots matched between the two genotypes. Of these, 45 showed > 20% decrease/increase in glycosylation level and were selected for protein identification. A large number of identified proteins showed decreased glycosylation levels in mn1 developing endosperms as compared to the Mn1. Functional classification of proteins, showed mainly of post-translational modification, protein turnover, chaperone activities, carbohydrate and amino acid biosynthesis / transport, and cell wall biosynthesis. These proteins and activities were related to endoplasmic reticulum (ER) stress and unfolded protein response (UPR) as a result of the low glycolsylation levels of the mutant proteins. Overall, these results provide for the first time a global glycoproteome profile of maize BETL-enriched basal endosperm to better understand their role in seed development in maize.
topic Gene Expression
Maize
seed development
transfer cells
Sugar methabolism
url http://journal.frontiersin.org/Journal/10.3389/fpls.2014.00063/full
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