A functional annotation of subproteomes in human plasma

Peipei Ping; Thomas M. Vondriska; Chad J. Creighton; T. K.B. Gandhi; Ziping Yang; Rajasree Menon; Min Seok Kwon; Sang Yun Cho; Garry Drwal; Markus Kellmann; Suraj Peri; Shubha Suresh; Mads Gronborg; Henrik Molina; Raghothama Chaerkady; B. Rekha; Arun S. Shet; Robert E. Gerszten; Haifeng Wu; Mark Raftery; Valerie Wasinger; Peter Schulz-Knappe; Samir M. Hanash; Young Ki Paik; William S. Hancock; David J. States; Gilbert S. Omenn; Akhilesh Pandey

doi:10.1002/pmic.200500140

A functional annotation of subproteomes in human plasma

Peipei Ping, Thomas M. Vondriska, Chad J. Creighton, T. K.B. Gandhi, Ziping Yang, Rajasree Menon, Min Seok Kwon, Sang Yun Cho, Garry Drwal, Markus Kellmann, Suraj Peri, Shubha Suresh, Mads Gronborg, Henrik Molina, Raghothama Chaerkady, B. Rekha, Arun S. Shet, Robert E. Gerszten, Haifeng Wu, Mark RafteryValerie Wasinger, Peter Schulz-Knappe, Samir M. Hanash, Young Ki Paik, William S. Hancock, David J. States, Gilbert S. Omenn, Akhilesh Pandey

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Abstract

The data collected by Human Proteome Organization's Plasma Proteome Pilot project phase was analyzed by members of our working group. Accordingly, a functional annotation of the human plasma proteome was carried out. Here, we report the findings of our analyses. First, bioinformatic analyses were undertaken to determine the likely sources of plasma proteins and to develop a protein interaction network of proteins identified in this project. Second, annotation of these proteins was performed in the context of functional subproteomes involved in the coagulation pathway, the mononuclear phagocytic system, the inflammation pathway, the cardiovascular system, and the liver; as well as the subset of proteins associated with DNA binding activities. Our analyses contributed to the Plasma Proteome Database (http://www. plasmaproteomedatabase.org), an annotated database of plasma proteins identified by HPPP as well as from other published studies. In addition, we address several methodological considerations including the selective enrichment of post-translationally modified proteins by the use of multi-lectin chromatography as well as the use of peptidomic techniques to characterize the low molecular weight proteins in plasma. Furthermore, we have performed additional analyses of peptide identification data to annotate cleavage of signal peptides, sites of intramembrane proteolysis and post-translational modifications. The HPPP-organized, multi-laboratory effort, as described herein, resulted in much synergy and was essential to the success of this project.

Original language	English
Pages (from-to)	3506-3519
Number of pages	14
Journal	Proteomics
Volume	5
Issue number	13
DOIs	https://doi.org/10.1002/pmic.200500140
Publication status	Published - 2005 Aug

All Science Journal Classification (ASJC) codes

Biochemistry
Molecular Biology

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10.1002/pmic.200500140

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Ping, P., Vondriska, T. M., Creighton, C. J., Gandhi, T. K. B., Yang, Z., Menon, R., Kwon, M. S., Cho, S. Y., Drwal, G., Kellmann, M., Peri, S., Suresh, S., Gronborg, M., Molina, H., Chaerkady, R., Rekha, B., Shet, A. S., Gerszten, R. E., Wu, H., ... Pandey, A. (2005). A functional annotation of subproteomes in human plasma. Proteomics, 5(13), 3506-3519. https://doi.org/10.1002/pmic.200500140

@article{8d657cef1a344f1591a04fce3e757e83,

title = "A functional annotation of subproteomes in human plasma",

abstract = "The data collected by Human Proteome Organization's Plasma Proteome Pilot project phase was analyzed by members of our working group. Accordingly, a functional annotation of the human plasma proteome was carried out. Here, we report the findings of our analyses. First, bioinformatic analyses were undertaken to determine the likely sources of plasma proteins and to develop a protein interaction network of proteins identified in this project. Second, annotation of these proteins was performed in the context of functional subproteomes involved in the coagulation pathway, the mononuclear phagocytic system, the inflammation pathway, the cardiovascular system, and the liver; as well as the subset of proteins associated with DNA binding activities. Our analyses contributed to the Plasma Proteome Database (http://www. plasmaproteomedatabase.org), an annotated database of plasma proteins identified by HPPP as well as from other published studies. In addition, we address several methodological considerations including the selective enrichment of post-translationally modified proteins by the use of multi-lectin chromatography as well as the use of peptidomic techniques to characterize the low molecular weight proteins in plasma. Furthermore, we have performed additional analyses of peptide identification data to annotate cleavage of signal peptides, sites of intramembrane proteolysis and post-translational modifications. The HPPP-organized, multi-laboratory effort, as described herein, resulted in much synergy and was essential to the success of this project.",

author = "Peipei Ping and Vondriska, {Thomas M.} and Creighton, {Chad J.} and Gandhi, {T. K.B.} and Ziping Yang and Rajasree Menon and Kwon, {Min Seok} and Cho, {Sang Yun} and Garry Drwal and Markus Kellmann and Suraj Peri and Shubha Suresh and Mads Gronborg and Henrik Molina and Raghothama Chaerkady and B. Rekha and Shet, {Arun S.} and Gerszten, {Robert E.} and Haifeng Wu and Mark Raftery and Valerie Wasinger and Peter Schulz-Knappe and Hanash, {Samir M.} and Paik, {Young Ki} and Hancock, {William S.} and States, {David J.} and Omenn, {Gilbert S.} and Akhilesh Pandey",

year = "2005",

month = aug,

doi = "10.1002/pmic.200500140",

language = "English",

volume = "5",

pages = "3506--3519",

journal = "Proteomics",

issn = "1615-9853",

publisher = "Wiley-VCH Verlag",

number = "13",

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Ping, P, Vondriska, TM, Creighton, CJ, Gandhi, TKB, Yang, Z, Menon, R, Kwon, MS, Cho, SY, Drwal, G, Kellmann, M, Peri, S, Suresh, S, Gronborg, M, Molina, H, Chaerkady, R, Rekha, B, Shet, AS, Gerszten, RE, Wu, H, Raftery, M, Wasinger, V, Schulz-Knappe, P, Hanash, SM, Paik, YK, Hancock, WS, States, DJ, Omenn, GS & Pandey, A 2005, 'A functional annotation of subproteomes in human plasma', Proteomics, vol. 5, no. 13, pp. 3506-3519. https://doi.org/10.1002/pmic.200500140

TY - JOUR

T1 - A functional annotation of subproteomes in human plasma

AU - Ping, Peipei

AU - Vondriska, Thomas M.

AU - Creighton, Chad J.

AU - Gandhi, T. K.B.

AU - Yang, Ziping

AU - Menon, Rajasree

AU - Kwon, Min Seok

AU - Cho, Sang Yun

AU - Drwal, Garry

AU - Kellmann, Markus

AU - Peri, Suraj

AU - Suresh, Shubha

AU - Gronborg, Mads

AU - Molina, Henrik

AU - Chaerkady, Raghothama

AU - Rekha, B.

AU - Shet, Arun S.

AU - Gerszten, Robert E.

AU - Wu, Haifeng

AU - Raftery, Mark

AU - Wasinger, Valerie

AU - Schulz-Knappe, Peter

AU - Hanash, Samir M.

AU - Paik, Young Ki

AU - Hancock, William S.

AU - States, David J.

AU - Omenn, Gilbert S.

AU - Pandey, Akhilesh

PY - 2005/8

Y1 - 2005/8

N2 - The data collected by Human Proteome Organization's Plasma Proteome Pilot project phase was analyzed by members of our working group. Accordingly, a functional annotation of the human plasma proteome was carried out. Here, we report the findings of our analyses. First, bioinformatic analyses were undertaken to determine the likely sources of plasma proteins and to develop a protein interaction network of proteins identified in this project. Second, annotation of these proteins was performed in the context of functional subproteomes involved in the coagulation pathway, the mononuclear phagocytic system, the inflammation pathway, the cardiovascular system, and the liver; as well as the subset of proteins associated with DNA binding activities. Our analyses contributed to the Plasma Proteome Database (http://www. plasmaproteomedatabase.org), an annotated database of plasma proteins identified by HPPP as well as from other published studies. In addition, we address several methodological considerations including the selective enrichment of post-translationally modified proteins by the use of multi-lectin chromatography as well as the use of peptidomic techniques to characterize the low molecular weight proteins in plasma. Furthermore, we have performed additional analyses of peptide identification data to annotate cleavage of signal peptides, sites of intramembrane proteolysis and post-translational modifications. The HPPP-organized, multi-laboratory effort, as described herein, resulted in much synergy and was essential to the success of this project.

AB - The data collected by Human Proteome Organization's Plasma Proteome Pilot project phase was analyzed by members of our working group. Accordingly, a functional annotation of the human plasma proteome was carried out. Here, we report the findings of our analyses. First, bioinformatic analyses were undertaken to determine the likely sources of plasma proteins and to develop a protein interaction network of proteins identified in this project. Second, annotation of these proteins was performed in the context of functional subproteomes involved in the coagulation pathway, the mononuclear phagocytic system, the inflammation pathway, the cardiovascular system, and the liver; as well as the subset of proteins associated with DNA binding activities. Our analyses contributed to the Plasma Proteome Database (http://www. plasmaproteomedatabase.org), an annotated database of plasma proteins identified by HPPP as well as from other published studies. In addition, we address several methodological considerations including the selective enrichment of post-translationally modified proteins by the use of multi-lectin chromatography as well as the use of peptidomic techniques to characterize the low molecular weight proteins in plasma. Furthermore, we have performed additional analyses of peptide identification data to annotate cleavage of signal peptides, sites of intramembrane proteolysis and post-translational modifications. The HPPP-organized, multi-laboratory effort, as described herein, resulted in much synergy and was essential to the success of this project.

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U2 - 10.1002/pmic.200500140

DO - 10.1002/pmic.200500140

M3 - Article

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SN - 1615-9853

VL - 5

SP - 3506

EP - 3519

JO - Proteomics

JF - Proteomics

IS - 13

ER -

A functional annotation of subproteomes in human plasma

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