A census of human soluble protein complexes

Pierre C. Havugimana; G. Traver Hart; Tamás Nepusz; Haixuan Yang; Andrei L. Turinsky; Zhihua Li; Peggy I. Wang; Daniel R. Boutz; Vincent Fong; Sadhna Phanse; Mohan Babu; Stephanie A. Craig; Pingzhao Hu; Cuihong Wan; James Vlasblom; Vaqaar Un Nisa Dar; Alexandr Bezginov; Gregory W. Clark; Gabriel C. Wu; Shoshana J. Wodak; Elisabeth R.M. Tillier; Alberto Paccanaro; Edward M. Marcotte; Andrew Emili

doi:10.1016/j.cell.2012.08.011

A census of human soluble protein complexes

Pierre C. Havugimana, G. Traver Hart, Tamás Nepusz, Haixuan Yang, Andrei L. Turinsky, Zhihua Li, Peggy I. Wang, Daniel R. Boutz, Vincent Fong, Sadhna Phanse, Mohan Babu, Stephanie A. Craig, Pingzhao Hu, Cuihong Wan, James Vlasblom, Vaqaar Un Nisa Dar, Alexandr Bezginov, Gregory W. Clark, Gabriel C. Wu, Shoshana J. WodakElisabeth R.M. Tillier, Alberto Paccanaro, Edward M. Marcotte, Andrew Emili

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637 Scopus citations

Abstract

Cellular processes often depend on stable physical associations between proteins. Despite recent progress, knowledge of the composition of human protein complexes remains limited. To close this gap, we applied an integrative global proteomic profiling approach, based on chromatographic separation of cultured human cell extracts into more than one thousand biochemical fractions that were subsequently analyzed by quantitative tandem mass spectrometry, to systematically identify a network of 13,993 high-confidence physical interactions among 3,006 stably associated soluble human proteins. Most of the 622 putative protein complexes we report are linked to core biological processes and encompass both candidate disease genes and unannotated proteins to inform on mechanism. Strikingly, whereas larger multiprotein assemblies tend to be more extensively annotated and evolutionarily conserved, human protein complexes with five or fewer subunits are far more likely to be functionally unannotated or restricted to vertebrates, suggesting more recent functional innovations.

Original language	English (US)
Pages (from-to)	1068-1081
Number of pages	14
Journal	Cell
Volume	150
Issue number	5
DOIs	https://doi.org/10.1016/j.cell.2012.08.011
State	Published - Aug 31 2012
Externally published	Yes

ASJC Scopus subject areas

General Biochemistry, Genetics and Molecular Biology

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10.1016/j.cell.2012.08.011

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Havugimana, P. C., Hart, G. T., Nepusz, T., Yang, H., Turinsky, A. L., Li, Z., Wang, P. I., Boutz, D. R., Fong, V., Phanse, S., Babu, M., Craig, S. A., Hu, P., Wan, C., Vlasblom, J., Dar, V. U. N., Bezginov, A., Clark, G. W., Wu, G. C., ... Emili, A. (2012). A census of human soluble protein complexes. Cell, 150(5), 1068-1081. https://doi.org/10.1016/j.cell.2012.08.011

Havugimana, PC, Hart, GT, Nepusz, T, Yang, H, Turinsky, AL, Li, Z, Wang, PI, Boutz, DR, Fong, V, Phanse, S, Babu, M, Craig, SA, Hu, P, Wan, C, Vlasblom, J, Dar, VUN, Bezginov, A, Clark, GW, Wu, GC, Wodak, SJ, Tillier, ERM, Paccanaro, A, Marcotte, EM & Emili, A 2012, 'A census of human soluble protein complexes', Cell, vol. 150, no. 5, pp. 1068-1081. https://doi.org/10.1016/j.cell.2012.08.011

@article{83d1ae88f1e24dc588a94bd130ef2192,

title = "A census of human soluble protein complexes",

abstract = "Cellular processes often depend on stable physical associations between proteins. Despite recent progress, knowledge of the composition of human protein complexes remains limited. To close this gap, we applied an integrative global proteomic profiling approach, based on chromatographic separation of cultured human cell extracts into more than one thousand biochemical fractions that were subsequently analyzed by quantitative tandem mass spectrometry, to systematically identify a network of 13,993 high-confidence physical interactions among 3,006 stably associated soluble human proteins. Most of the 622 putative protein complexes we report are linked to core biological processes and encompass both candidate disease genes and unannotated proteins to inform on mechanism. Strikingly, whereas larger multiprotein assemblies tend to be more extensively annotated and evolutionarily conserved, human protein complexes with five or fewer subunits are far more likely to be functionally unannotated or restricted to vertebrates, suggesting more recent functional innovations.",

author = "Havugimana, {Pierre C.} and Hart, {G. Traver} and Tam{\'a}s Nepusz and Haixuan Yang and Turinsky, {Andrei L.} and Zhihua Li and Wang, {Peggy I.} and Boutz, {Daniel R.} and Vincent Fong and Sadhna Phanse and Mohan Babu and Craig, {Stephanie A.} and Pingzhao Hu and Cuihong Wan and James Vlasblom and Dar, {Vaqaar Un Nisa} and Alexandr Bezginov and Clark, {Gregory W.} and Wu, {Gabriel C.} and Wodak, {Shoshana J.} and Tillier, {Elisabeth R.M.} and Alberto Paccanaro and Marcotte, {Edward M.} and Andrew Emili",

note = "Funding Information: We thank R. Isserlin, Z. Ni, H. Guo, D. Merico and A. Alpert for technical assistance and J. Parkinson, G. Bader, A. Wilde, and J. Greenblatt for critical suggestions. P.C.H. was a recipient of a University of Toronto Open Fellowship, T.N. was supported by the Newton International Fellowship Scheme of the Royal Society, A.E. is an Ontario Research Chair, and S.J.W. is a Canada Research Chair Tier 1. This work was supported by grants from the Biotechnology and Biological Sciences Research Council (BB/F00964X/1 and BB/K004131/1) and the Royal Society (NF080750) to A.P., the Canada Institutes of Health Research (MOP 82940) and the SickKids Foundation to S.J.W., the National Institutes of Health, National Science Foundation, Cancer Prevention Research Institute of Texas, and Welch (F1515) and Packard Foundations to E.M.M., and the Ontario Ministry of Research and Innovation to A.E. ",

year = "2012",

month = aug,

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doi = "10.1016/j.cell.2012.08.011",

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T1 - A census of human soluble protein complexes

AU - Havugimana, Pierre C.

AU - Hart, G. Traver

AU - Nepusz, Tamás

AU - Yang, Haixuan

AU - Turinsky, Andrei L.

AU - Li, Zhihua

AU - Wang, Peggy I.

AU - Boutz, Daniel R.

AU - Fong, Vincent

AU - Phanse, Sadhna

AU - Babu, Mohan

AU - Craig, Stephanie A.

AU - Hu, Pingzhao

AU - Wan, Cuihong

AU - Vlasblom, James

AU - Dar, Vaqaar Un Nisa

AU - Bezginov, Alexandr

AU - Clark, Gregory W.

AU - Wu, Gabriel C.

AU - Wodak, Shoshana J.

AU - Tillier, Elisabeth R.M.

AU - Paccanaro, Alberto

AU - Marcotte, Edward M.

AU - Emili, Andrew

N1 - Funding Information: We thank R. Isserlin, Z. Ni, H. Guo, D. Merico and A. Alpert for technical assistance and J. Parkinson, G. Bader, A. Wilde, and J. Greenblatt for critical suggestions. P.C.H. was a recipient of a University of Toronto Open Fellowship, T.N. was supported by the Newton International Fellowship Scheme of the Royal Society, A.E. is an Ontario Research Chair, and S.J.W. is a Canada Research Chair Tier 1. This work was supported by grants from the Biotechnology and Biological Sciences Research Council (BB/F00964X/1 and BB/K004131/1) and the Royal Society (NF080750) to A.P., the Canada Institutes of Health Research (MOP 82940) and the SickKids Foundation to S.J.W., the National Institutes of Health, National Science Foundation, Cancer Prevention Research Institute of Texas, and Welch (F1515) and Packard Foundations to E.M.M., and the Ontario Ministry of Research and Innovation to A.E.

PY - 2012/8/31

Y1 - 2012/8/31

N2 - Cellular processes often depend on stable physical associations between proteins. Despite recent progress, knowledge of the composition of human protein complexes remains limited. To close this gap, we applied an integrative global proteomic profiling approach, based on chromatographic separation of cultured human cell extracts into more than one thousand biochemical fractions that were subsequently analyzed by quantitative tandem mass spectrometry, to systematically identify a network of 13,993 high-confidence physical interactions among 3,006 stably associated soluble human proteins. Most of the 622 putative protein complexes we report are linked to core biological processes and encompass both candidate disease genes and unannotated proteins to inform on mechanism. Strikingly, whereas larger multiprotein assemblies tend to be more extensively annotated and evolutionarily conserved, human protein complexes with five or fewer subunits are far more likely to be functionally unannotated or restricted to vertebrates, suggesting more recent functional innovations.

AB - Cellular processes often depend on stable physical associations between proteins. Despite recent progress, knowledge of the composition of human protein complexes remains limited. To close this gap, we applied an integrative global proteomic profiling approach, based on chromatographic separation of cultured human cell extracts into more than one thousand biochemical fractions that were subsequently analyzed by quantitative tandem mass spectrometry, to systematically identify a network of 13,993 high-confidence physical interactions among 3,006 stably associated soluble human proteins. Most of the 622 putative protein complexes we report are linked to core biological processes and encompass both candidate disease genes and unannotated proteins to inform on mechanism. Strikingly, whereas larger multiprotein assemblies tend to be more extensively annotated and evolutionarily conserved, human protein complexes with five or fewer subunits are far more likely to be functionally unannotated or restricted to vertebrates, suggesting more recent functional innovations.

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SP - 1068

EP - 1081

JO - Cell

JF - Cell

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ER -

A census of human soluble protein complexes

Abstract

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