2D Gel-Based Multiplexed Proteomic Analysis during Larval Development and Metamorphosis of the Biofouling Polychaete Tubeworm Hydroides elegans

Larval settlement and metamorphosis of a common biofouling polychaete worm, Hydroides elegans, involve remarkable structural and physiological changes during this pelagic to sessile habitat shift. The endogenous protein molecules and post-translational modifications that drive this larval transition...

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Veröffentlicht in:	Journal of proteome research 2010-09, Vol.9 (9), p.4851-4860
Hauptverfasser:	Zhang, Yu, Sun, Jin, Xiao, Kang, Arellano, Shawn M, Thiyagarajan, Vengatesen, Qian, Pei-Yuan
Format:	Artikel
Sprache:	eng
Schlagworte:	Animals Blotting, Western Electrophoresis, Gel, Two-Dimensional - methods Larva - chemistry Larva - growth & development Larva - metabolism Metamorphosis, Biological - physiology Peptide Fragments - chemistry Peptide Fragments - metabolism Phosphoproteins - chemistry Phosphoproteins - metabolism Phosphorylation Polychaeta - growth & development Polychaeta - metabolism Polychaeta - physiology Proteome - chemistry Proteome - metabolism Proteomics - methods Trypsin - metabolism
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container_title	Journal of proteome research
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creator	Zhang, Yu Sun, Jin Xiao, Kang Arellano, Shawn M Thiyagarajan, Vengatesen Qian, Pei-Yuan
description	Larval settlement and metamorphosis of a common biofouling polychaete worm, Hydroides elegans, involve remarkable structural and physiological changes during this pelagic to sessile habitat shift. The endogenous protein molecules and post-translational modifications that drive this larval transition process are not only of interest to ecologists but also to the antifouling paint industry, which aims to control the settlement of this biofouling species on man-made structures (e.g., ship hulls). On the basis of our recent proteomic studies, we hypothesize that rapid larval settlement of H. elegans could be mediated through changes in phosphorylation status of proteins rather than extensive de novo synthesis of proteins. To test this hypothesis, 2D gel-based multiplexed proteomics technology was used to monitor the changes in protein expression and phosphorylation status during larval development and metamorphosis of H. elegans. The protein expression profiles of larvae before and after they reached competency to attach and metamorphose were similar in terms of major proteins, but the percentage of phosphorylated proteins increased from 41% to 49% after competency. Notably, both the protein and phosphoprotein profiles of the metamorphosed individuals (adult) were distinctly different from that of the larvae, with only 40% of the proteins phosphorylated in the adult stage. The intensity ratio of all phosphoprotein spots to all total protein spots was also the highest in the competent larval stage. Overall, our results indicated that the level of protein phosphorylation might play a crucial role in the initiation of larval settlement and metamorphosis.
doi_str_mv	10.1021/pr100645z
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The endogenous protein molecules and post-translational modifications that drive this larval transition process are not only of interest to ecologists but also to the antifouling paint industry, which aims to control the settlement of this biofouling species on man-made structures (e.g., ship hulls). On the basis of our recent proteomic studies, we hypothesize that rapid larval settlement of H. elegans could be mediated through changes in phosphorylation status of proteins rather than extensive de novo synthesis of proteins. To test this hypothesis, 2D gel-based multiplexed proteomics technology was used to monitor the changes in protein expression and phosphorylation status during larval development and metamorphosis of H. elegans. The protein expression profiles of larvae before and after they reached competency to attach and metamorphose were similar in terms of major proteins, but the percentage of phosphorylated proteins increased from 41% to 49% after competency. Notably, both the protein and phosphoprotein profiles of the metamorphosed individuals (adult) were distinctly different from that of the larvae, with only 40% of the proteins phosphorylated in the adult stage. The intensity ratio of all phosphoprotein spots to all total protein spots was also the highest in the competent larval stage. 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Proteome Res</addtitle><description>Larval settlement and metamorphosis of a common biofouling polychaete worm, Hydroides elegans, involve remarkable structural and physiological changes during this pelagic to sessile habitat shift. The endogenous protein molecules and post-translational modifications that drive this larval transition process are not only of interest to ecologists but also to the antifouling paint industry, which aims to control the settlement of this biofouling species on man-made structures (e.g., ship hulls). On the basis of our recent proteomic studies, we hypothesize that rapid larval settlement of H. elegans could be mediated through changes in phosphorylation status of proteins rather than extensive de novo synthesis of proteins. To test this hypothesis, 2D gel-based multiplexed proteomics technology was used to monitor the changes in protein expression and phosphorylation status during larval development and metamorphosis of H. elegans. The protein expression profiles of larvae before and after they reached competency to attach and metamorphose were similar in terms of major proteins, but the percentage of phosphorylated proteins increased from 41% to 49% after competency. Notably, both the protein and phosphoprotein profiles of the metamorphosed individuals (adult) were distinctly different from that of the larvae, with only 40% of the proteins phosphorylated in the adult stage. The intensity ratio of all phosphoprotein spots to all total protein spots was also the highest in the competent larval stage. 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Proteome Res</addtitle><date>2010-09-03</date><risdate>2010</risdate><volume>9</volume><issue>9</issue><spage>4851</spage><epage>4860</epage><pages>4851-4860</pages><issn>1535-3893</issn><eissn>1535-3907</eissn><abstract>Larval settlement and metamorphosis of a common biofouling polychaete worm, Hydroides elegans, involve remarkable structural and physiological changes during this pelagic to sessile habitat shift. The endogenous protein molecules and post-translational modifications that drive this larval transition process are not only of interest to ecologists but also to the antifouling paint industry, which aims to control the settlement of this biofouling species on man-made structures (e.g., ship hulls). On the basis of our recent proteomic studies, we hypothesize that rapid larval settlement of H. elegans could be mediated through changes in phosphorylation status of proteins rather than extensive de novo synthesis of proteins. 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subjects	Animals Blotting, Western Electrophoresis, Gel, Two-Dimensional - methods Larva - chemistry Larva - growth & development Larva - metabolism Metamorphosis, Biological - physiology Peptide Fragments - chemistry Peptide Fragments - metabolism Phosphoproteins - chemistry Phosphoproteins - metabolism Phosphorylation Polychaeta - growth & development Polychaeta - metabolism Polychaeta - physiology Proteome - chemistry Proteome - metabolism Proteomics - methods Trypsin - metabolism
title	2D Gel-Based Multiplexed Proteomic Analysis during Larval Development and Metamorphosis of the Biofouling Polychaete Tubeworm Hydroides elegans
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