The Proteomic Analysis of Maize Endosperm Protein Enriched by Phos-tag<sup>tm</sup> Reveals the Phosphorylation of Brittle-2 Subunit of ADP-Glc Pyrophosphorylase in Starch Biosynthesis Process

The Proteomic Analysis of Maize Endosperm Protein Enriched by Phos-tag<sup>tm</sup> Reveals the Phosphorylation of Brittle-2 Subunit of ADP-Glc Pyrophosphorylase in Starch Biosynthesis Process

AGPase catalyzes a key rate-limiting step that converts ATP and Glc-1-p into ADP-glucose and diphosphate in maize starch biosynthesis. Previous studies suggest that AGPase is modulated by redox, thermal and allosteric regulation. However, the phosphorylation of AGPase is unclear in the kernel starch...

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Main Authors: Guowu Yu, Yanan Lv, Leiyang Shen, Yongbin Wang, Yun Qing, Nan Wu, Yangping Li, Huanhuan Huang, Na Zhang, Yinghong Liu, Yufeng Hu, Hanmei Liu, Junjie Zhang, Yubi Huang
Format: Article
Language:English
Published: MDPI AG 2019-02-01
Series:International Journal of Molecular Sciences
Subjects:
maize
AGPase
phosphorylation
brittle-2
phos-tag<sup>TM</sup>
Online Access:https://www.mdpi.com/1422-0067/20/4/986
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spelling doaj-5e74967535aa4dc1956871599ccadf732020-11-24T20:45:17ZengMDPI AGInternational Journal of Molecular Sciences1422-00672019-02-0120498610.3390/ijms20040986ijms20040986The Proteomic Analysis of Maize Endosperm Protein Enriched by Phos-tag<sup>tm</sup> Reveals the Phosphorylation of Brittle-2 Subunit of ADP-Glc Pyrophosphorylase in Starch Biosynthesis ProcessGuowu Yu0Yanan Lv1Leiyang Shen2Yongbin Wang3Yun Qing4Nan Wu5Yangping Li6Huanhuan Huang7Na Zhang8Yinghong Liu9Yufeng Hu10Hanmei Liu11Junjie Zhang12Yubi Huang13College of Agronomy, Sichuan Agricultural University, Huimin Road 211#, Wenjiang District, Chengdu 611130, Sichuan, ChinaCollege of Agronomy, Sichuan Agricultural University, Huimin Road 211#, Wenjiang District, Chengdu 611130, Sichuan, ChinaCollege of Agronomy, Sichuan Agricultural University, Huimin Road 211#, Wenjiang District, Chengdu 611130, Sichuan, ChinaCollege of Agronomy, Sichuan Agricultural University, Huimin Road 211#, Wenjiang District, Chengdu 611130, Sichuan, ChinaCollege of Agronomy, Sichuan Agricultural University, Huimin Road 211#, Wenjiang District, Chengdu 611130, Sichuan, ChinaCollege of Agronomy, Sichuan Agricultural University, Huimin Road 211#, Wenjiang District, Chengdu 611130, Sichuan, ChinaCollege of Agronomy, Sichuan Agricultural University, Huimin Road 211#, Wenjiang District, Chengdu 611130, Sichuan, ChinaCollege of Agronomy, Sichuan Agricultural University, Huimin Road 211#, Wenjiang District, Chengdu 611130, Sichuan, ChinaCollege of Science, Sichuan Agricultural University, Huimin Road 211#, Wenjiang District, Chengdu 611130, Sichuan, ChinaMaize Research Institute of Sichuan Agricultural University, Huimin Road 211#, Wenjiang District, Chengdu 611130, Sichuan, ChinaCollege of Agronomy, Sichuan Agricultural University, Huimin Road 211#, Wenjiang District, Chengdu 611130, Sichuan, ChinaCollege of Life Science, Sichuan Agricultural University, Xingkang Road 46#, Ya’an 625014, Sichuan, ChinaCollege of Life Science, Sichuan Agricultural University, Xingkang Road 46#, Ya’an 625014, Sichuan, ChinaCollege of Agronomy, Sichuan Agricultural University, Huimin Road 211#, Wenjiang District, Chengdu 611130, Sichuan, ChinaAGPase catalyzes a key rate-limiting step that converts ATP and Glc-1-p into ADP-glucose and diphosphate in maize starch biosynthesis. Previous studies suggest that AGPase is modulated by redox, thermal and allosteric regulation. However, the phosphorylation of AGPase is unclear in the kernel starch biosynthesis process. Phos-tag<sup>TM</sup> technology is a novel method using phos-tag<sup>TM</sup> agarose beads for separation, purification, and detection of phosphorylated proteins. Here we identified phos-tag<sup>TM</sup> agarose binding proteins from maize endosperm. Results showed a total of 1733 proteins identified from 10,678 distinct peptides. Interestingly, a total of 21 unique peptides for AGPase sub-unit Brittle-2 (Bt2) were identified. Bt2 was demonstrated by immunoblot when enriched maize endosperm protein with phos-tag<sup>TM</sup> agarose was in different pollination stages. In contrast, Bt2 would lose binding to phos-tag<sup>TM</sup> when samples were treated with alkaline phosphatase (ALP). Furthermore, Bt2 could be detected by Pro-Q diamond staining specifically for phosphorylated protein. We further identified the phosphorylation sites of Bt2 at Ser<sup>10</sup>, Thr<sup>451</sup>, and Thr<sup>462</sup> by iTRAQ. In addition, dephosphorylation of Bt2 decreased the activity of AGPase in the native gel assay through ALP treatment. Taking together, these results strongly suggest that the phosphorylation of AGPase may be a new model to regulate AGPase activity in the starch biosynthesis process.https://www.mdpi.com/1422-0067/20/4/986maizeAGPasephosphorylationbrittle-2phos-tag<sup>TM</sup>
collection DOAJ
language English
format Article
sources DOAJ
author Guowu Yu
Yanan Lv
Leiyang Shen
Yongbin Wang
Yun Qing
Nan Wu
Yangping Li
Huanhuan Huang
Na Zhang
Yinghong Liu
Yufeng Hu
Hanmei Liu
Junjie Zhang
Yubi Huang
spellingShingle Guowu Yu
Yanan Lv
Leiyang Shen
Yongbin Wang
Yun Qing
Nan Wu
Yangping Li
Huanhuan Huang
Na Zhang
Yinghong Liu
Yufeng Hu
Hanmei Liu
Junjie Zhang
Yubi Huang
The Proteomic Analysis of Maize Endosperm Protein Enriched by Phos-tag<sup>tm</sup> Reveals the Phosphorylation of Brittle-2 Subunit of ADP-Glc Pyrophosphorylase in Starch Biosynthesis Process
International Journal of Molecular Sciences
maize
AGPase
phosphorylation
brittle-2
phos-tag<sup>TM</sup>
author_facet Guowu Yu
Yanan Lv
Leiyang Shen
Yongbin Wang
Yun Qing
Nan Wu
Yangping Li
Huanhuan Huang
Na Zhang
Yinghong Liu
Yufeng Hu
Hanmei Liu
Junjie Zhang
Yubi Huang
author_sort Guowu Yu
title The Proteomic Analysis of Maize Endosperm Protein Enriched by Phos-tag<sup>tm</sup> Reveals the Phosphorylation of Brittle-2 Subunit of ADP-Glc Pyrophosphorylase in Starch Biosynthesis Process
title_short The Proteomic Analysis of Maize Endosperm Protein Enriched by Phos-tag<sup>tm</sup> Reveals the Phosphorylation of Brittle-2 Subunit of ADP-Glc Pyrophosphorylase in Starch Biosynthesis Process
title_full The Proteomic Analysis of Maize Endosperm Protein Enriched by Phos-tag<sup>tm</sup> Reveals the Phosphorylation of Brittle-2 Subunit of ADP-Glc Pyrophosphorylase in Starch Biosynthesis Process
title_fullStr The Proteomic Analysis of Maize Endosperm Protein Enriched by Phos-tag<sup>tm</sup> Reveals the Phosphorylation of Brittle-2 Subunit of ADP-Glc Pyrophosphorylase in Starch Biosynthesis Process
title_full_unstemmed The Proteomic Analysis of Maize Endosperm Protein Enriched by Phos-tag<sup>tm</sup> Reveals the Phosphorylation of Brittle-2 Subunit of ADP-Glc Pyrophosphorylase in Starch Biosynthesis Process
title_sort proteomic analysis of maize endosperm protein enriched by phos-tag<sup>tm</sup> reveals the phosphorylation of brittle-2 subunit of adp-glc pyrophosphorylase in starch biosynthesis process
publisher MDPI AG
series International Journal of Molecular Sciences
issn 1422-0067
publishDate 2019-02-01
description AGPase catalyzes a key rate-limiting step that converts ATP and Glc-1-p into ADP-glucose and diphosphate in maize starch biosynthesis. Previous studies suggest that AGPase is modulated by redox, thermal and allosteric regulation. However, the phosphorylation of AGPase is unclear in the kernel starch biosynthesis process. Phos-tag<sup>TM</sup> technology is a novel method using phos-tag<sup>TM</sup> agarose beads for separation, purification, and detection of phosphorylated proteins. Here we identified phos-tag<sup>TM</sup> agarose binding proteins from maize endosperm. Results showed a total of 1733 proteins identified from 10,678 distinct peptides. Interestingly, a total of 21 unique peptides for AGPase sub-unit Brittle-2 (Bt2) were identified. Bt2 was demonstrated by immunoblot when enriched maize endosperm protein with phos-tag<sup>TM</sup> agarose was in different pollination stages. In contrast, Bt2 would lose binding to phos-tag<sup>TM</sup> when samples were treated with alkaline phosphatase (ALP). Furthermore, Bt2 could be detected by Pro-Q diamond staining specifically for phosphorylated protein. We further identified the phosphorylation sites of Bt2 at Ser<sup>10</sup>, Thr<sup>451</sup>, and Thr<sup>462</sup> by iTRAQ. In addition, dephosphorylation of Bt2 decreased the activity of AGPase in the native gel assay through ALP treatment. Taking together, these results strongly suggest that the phosphorylation of AGPase may be a new model to regulate AGPase activity in the starch biosynthesis process.
topic maize
AGPase
phosphorylation
brittle-2
phos-tag<sup>TM</sup>
url https://www.mdpi.com/1422-0067/20/4/986
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