Prediction of homoprotein and heteroprotein complexes by protein docking and template‐based modeling: A CASP‐CAPRI experiment

We present the results for CAPRI Round 30, the first joint CASP‐CAPRI experiment, which brought together experts from the protein structure prediction and protein–protein docking communities. The Round comprised 25 targets from amongst those submitted for the CASP11 prediction experiment of 2014. Th...

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Autores principales: Lensink, Marc F., Velankar, Sameer, Kryshtafovych, Andriy, Huang, Shen‐You, Schneidman‐Duhovny, Dina, Sali, Andrej, Segura, Joan, Fernandez‐Fuentes, Narcis, Viswanath, Shruthi, Elber, Ron, Grudinin, Sergei, Popov, Petr, Neveu, Emilie, Lee, Hasup, Baek, Minkyung, Park, Sangwoo, Heo, Lim, Rie Lee, Gyu, Seok, Chaok, Qin, Sanbo, Zhou, Huan‐Xiang, Ritchie, David W., Maigret, Bernard, Devignes, Marie‐Dominique, Ghoorah, Anisah, Torchala, Mieczyslaw, Chaleil, Raphaël A.G., Bates, Paul A., Ben‐Zeev, Efrat, Eisenstein, Miriam, Negi, Surendra S., Weng, Zhiping, Vreven, Thom, Pierce, Brian G., Borrman, Tyler M., Yu, Jinchao, Ochsenbein, Françoise, Guerois, Raphaël, Vangone, Anna, Rodrigues, João P.G.L.M., van Zundert, Gydo, Nellen, Mehdi, Xue, Li, Karaca, Ezgi, Melquiond, Adrien S.J., Visscher, Koen, Kastritis, Panagiotis L., Bonvin, Alexandre M.J.J., Xu, Xianjin, Qiu, Liming, Yan, Chengfei, Li, Jilong, Ma, Zhiwei, Cheng, Jianlin, Zou, Xiaoqin, Shen, Yang, Peterson, Lenna X., Kim, Hyung‐Rae, Roy, Amit, Han, Xusi, Esquivel‐Rodriguez, Juan, Kihara, Daisuke, Yu, Xiaofeng, Bruce, Neil J., Fuller, Jonathan C., Wade, Rebecca C., Anishchenko, Ivan, Kundrotas, Petras J., Vakser, Ilya A., Imai, Kenichiro, Yamada, Kazunori, Oda, Toshiyuki, Nakamura, Tsukasa, Tomii, Kentaro, Pallara, Chiara, Romero‐Durana, Miguel, Jiménez‐García, Brian, Moal, Iain H., Férnandez‐Recio, Juan, Joung, Jong Young, Kim, Jong Yun, Joo, Keehyoung, Lee, Jooyoung, Kozakov, Dima, Vajda, Sandor, Mottarella, Scott, Hall, David R., Beglov, Dmitri, Mamonov, Artem, Xia, Bing, Bohnuud, Tanggis, Del Carpio, Carlos A., Ichiishi, Eichiro, Marze, Nicholas, Kuroda, Daisuke, Roy Burman, Shourya S., Gray, Jeffrey J., Chermak, Edrisse, Cavallo, Luigi, Oliva, Romina, Tovchigrechko, Andrey, Wodak, Shoshana J.
Formato: Online Artículo Texto
Lenguaje:English
Publicado: John Wiley and Sons Inc. 2016
Materias:
Articles
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC5030136/
https://www.ncbi.nlm.nih.gov/pubmed/27122118
http://dx.doi.org/10.1002/prot.25007
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author Lensink, Marc F.
Velankar, Sameer
Kryshtafovych, Andriy
Huang, Shen‐You
Schneidman‐Duhovny, Dina
Sali, Andrej
Segura, Joan
Fernandez‐Fuentes, Narcis
Viswanath, Shruthi
Elber, Ron
Grudinin, Sergei
Popov, Petr
Neveu, Emilie
Lee, Hasup
Baek, Minkyung
Park, Sangwoo
Heo, Lim
Rie Lee, Gyu
Seok, Chaok
Qin, Sanbo
Zhou, Huan‐Xiang
Ritchie, David W.
Maigret, Bernard
Devignes, Marie‐Dominique
Ghoorah, Anisah
Torchala, Mieczyslaw
Chaleil, Raphaël A.G.
Bates, Paul A.
Ben‐Zeev, Efrat
Eisenstein, Miriam
Negi, Surendra S.
Weng, Zhiping
Vreven, Thom
Pierce, Brian G.
Borrman, Tyler M.
Yu, Jinchao
Ochsenbein, Françoise
Guerois, Raphaël
Vangone, Anna
Rodrigues, João P.G.L.M.
van Zundert, Gydo
Nellen, Mehdi
Xue, Li
Karaca, Ezgi
Melquiond, Adrien S.J.
Visscher, Koen
Kastritis, Panagiotis L.
Bonvin, Alexandre M.J.J.
Xu, Xianjin
Qiu, Liming
Yan, Chengfei
Li, Jilong
Ma, Zhiwei
Cheng, Jianlin
Zou, Xiaoqin
Shen, Yang
Peterson, Lenna X.
Kim, Hyung‐Rae
Roy, Amit
Han, Xusi
Esquivel‐Rodriguez, Juan
Kihara, Daisuke
Yu, Xiaofeng
Bruce, Neil J.
Fuller, Jonathan C.
Wade, Rebecca C.
Anishchenko, Ivan
Kundrotas, Petras J.
Vakser, Ilya A.
Imai, Kenichiro
Yamada, Kazunori
Oda, Toshiyuki
Nakamura, Tsukasa
Tomii, Kentaro
Pallara, Chiara
Romero‐Durana, Miguel
Jiménez‐García, Brian
Moal, Iain H.
Férnandez‐Recio, Juan
Joung, Jong Young
Kim, Jong Yun
Joo, Keehyoung
Lee, Jooyoung
Kozakov, Dima
Vajda, Sandor
Mottarella, Scott
Hall, David R.
Beglov, Dmitri
Mamonov, Artem
Xia, Bing
Bohnuud, Tanggis
Del Carpio, Carlos A.
Ichiishi, Eichiro
Marze, Nicholas
Kuroda, Daisuke
Roy Burman, Shourya S.
Gray, Jeffrey J.
Chermak, Edrisse
Cavallo, Luigi
Oliva, Romina
Tovchigrechko, Andrey
Wodak, Shoshana J.
author_facet Lensink, Marc F.
Velankar, Sameer
Kryshtafovych, Andriy
Huang, Shen‐You
Schneidman‐Duhovny, Dina
Sali, Andrej
Segura, Joan
Fernandez‐Fuentes, Narcis
Viswanath, Shruthi
Elber, Ron
Grudinin, Sergei
Popov, Petr
Neveu, Emilie
Lee, Hasup
Baek, Minkyung
Park, Sangwoo
Heo, Lim
Rie Lee, Gyu
Seok, Chaok
Qin, Sanbo
Zhou, Huan‐Xiang
Ritchie, David W.
Maigret, Bernard
Devignes, Marie‐Dominique
Ghoorah, Anisah
Torchala, Mieczyslaw
Chaleil, Raphaël A.G.
Bates, Paul A.
Ben‐Zeev, Efrat
Eisenstein, Miriam
Negi, Surendra S.
Weng, Zhiping
Vreven, Thom
Pierce, Brian G.
Borrman, Tyler M.
Yu, Jinchao
Ochsenbein, Françoise
Guerois, Raphaël
Vangone, Anna
Rodrigues, João P.G.L.M.
van Zundert, Gydo
Nellen, Mehdi
Xue, Li
Karaca, Ezgi
Melquiond, Adrien S.J.
Visscher, Koen
Kastritis, Panagiotis L.
Bonvin, Alexandre M.J.J.
Xu, Xianjin
Qiu, Liming
Yan, Chengfei
Li, Jilong
Ma, Zhiwei
Cheng, Jianlin
Zou, Xiaoqin
Shen, Yang
Peterson, Lenna X.
Kim, Hyung‐Rae
Roy, Amit
Han, Xusi
Esquivel‐Rodriguez, Juan
Kihara, Daisuke
Yu, Xiaofeng
Bruce, Neil J.
Fuller, Jonathan C.
Wade, Rebecca C.
Anishchenko, Ivan
Kundrotas, Petras J.
Vakser, Ilya A.
Imai, Kenichiro
Yamada, Kazunori
Oda, Toshiyuki
Nakamura, Tsukasa
Tomii, Kentaro
Pallara, Chiara
Romero‐Durana, Miguel
Jiménez‐García, Brian
Moal, Iain H.
Férnandez‐Recio, Juan
Joung, Jong Young
Kim, Jong Yun
Joo, Keehyoung
Lee, Jooyoung
Kozakov, Dima
Vajda, Sandor
Mottarella, Scott
Hall, David R.
Beglov, Dmitri
Mamonov, Artem
Xia, Bing
Bohnuud, Tanggis
Del Carpio, Carlos A.
Ichiishi, Eichiro
Marze, Nicholas
Kuroda, Daisuke
Roy Burman, Shourya S.
Gray, Jeffrey J.
Chermak, Edrisse
Cavallo, Luigi
Oliva, Romina
Tovchigrechko, Andrey
Wodak, Shoshana J.
author_sort Lensink, Marc F.
collection PubMed
description We present the results for CAPRI Round 30, the first joint CASP‐CAPRI experiment, which brought together experts from the protein structure prediction and protein–protein docking communities. The Round comprised 25 targets from amongst those submitted for the CASP11 prediction experiment of 2014. The targets included mostly homodimers, a few homotetramers, and two heterodimers, and comprised protein chains that could readily be modeled using templates from the Protein Data Bank. On average 24 CAPRI groups and 7 CASP groups submitted docking predictions for each target, and 12 CAPRI groups per target participated in the CAPRI scoring experiment. In total more than 9500 models were assessed against the 3D structures of the corresponding target complexes. Results show that the prediction of homodimer assemblies by homology modeling techniques and docking calculations is quite successful for targets featuring large enough subunit interfaces to represent stable associations. Targets with ambiguous or inaccurate oligomeric state assignments, often featuring crystal contact‐sized interfaces, represented a confounding factor. For those, a much poorer prediction performance was achieved, while nonetheless often providing helpful clues on the correct oligomeric state of the protein. The prediction performance was very poor for genuine tetrameric targets, where the inaccuracy of the homology‐built subunit models and the smaller pair‐wise interfaces severely limited the ability to derive the correct assembly mode. Our analysis also shows that docking procedures tend to perform better than standard homology modeling techniques and that highly accurate models of the protein components are not always required to identify their association modes with acceptable accuracy. Proteins 2016; 84(Suppl 1):323–348. © 2016 The Authors Proteins: Structure, Function, and Bioinformatics Published by Wiley Periodicals, Inc.
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spelling pubmed-50301362016-09-20 Prediction of homoprotein and heteroprotein complexes by protein docking and template‐based modeling: A CASP‐CAPRI experiment Lensink, Marc F. Velankar, Sameer Kryshtafovych, Andriy Huang, Shen‐You Schneidman‐Duhovny, Dina Sali, Andrej Segura, Joan Fernandez‐Fuentes, Narcis Viswanath, Shruthi Elber, Ron Grudinin, Sergei Popov, Petr Neveu, Emilie Lee, Hasup Baek, Minkyung Park, Sangwoo Heo, Lim Rie Lee, Gyu Seok, Chaok Qin, Sanbo Zhou, Huan‐Xiang Ritchie, David W. Maigret, Bernard Devignes, Marie‐Dominique Ghoorah, Anisah Torchala, Mieczyslaw Chaleil, Raphaël A.G. Bates, Paul A. Ben‐Zeev, Efrat Eisenstein, Miriam Negi, Surendra S. Weng, Zhiping Vreven, Thom Pierce, Brian G. Borrman, Tyler M. Yu, Jinchao Ochsenbein, Françoise Guerois, Raphaël Vangone, Anna Rodrigues, João P.G.L.M. van Zundert, Gydo Nellen, Mehdi Xue, Li Karaca, Ezgi Melquiond, Adrien S.J. Visscher, Koen Kastritis, Panagiotis L. Bonvin, Alexandre M.J.J. Xu, Xianjin Qiu, Liming Yan, Chengfei Li, Jilong Ma, Zhiwei Cheng, Jianlin Zou, Xiaoqin Shen, Yang Peterson, Lenna X. Kim, Hyung‐Rae Roy, Amit Han, Xusi Esquivel‐Rodriguez, Juan Kihara, Daisuke Yu, Xiaofeng Bruce, Neil J. Fuller, Jonathan C. Wade, Rebecca C. Anishchenko, Ivan Kundrotas, Petras J. Vakser, Ilya A. Imai, Kenichiro Yamada, Kazunori Oda, Toshiyuki Nakamura, Tsukasa Tomii, Kentaro Pallara, Chiara Romero‐Durana, Miguel Jiménez‐García, Brian Moal, Iain H. Férnandez‐Recio, Juan Joung, Jong Young Kim, Jong Yun Joo, Keehyoung Lee, Jooyoung Kozakov, Dima Vajda, Sandor Mottarella, Scott Hall, David R. Beglov, Dmitri Mamonov, Artem Xia, Bing Bohnuud, Tanggis Del Carpio, Carlos A. Ichiishi, Eichiro Marze, Nicholas Kuroda, Daisuke Roy Burman, Shourya S. Gray, Jeffrey J. Chermak, Edrisse Cavallo, Luigi Oliva, Romina Tovchigrechko, Andrey Wodak, Shoshana J. Proteins Articles We present the results for CAPRI Round 30, the first joint CASP‐CAPRI experiment, which brought together experts from the protein structure prediction and protein–protein docking communities. The Round comprised 25 targets from amongst those submitted for the CASP11 prediction experiment of 2014. The targets included mostly homodimers, a few homotetramers, and two heterodimers, and comprised protein chains that could readily be modeled using templates from the Protein Data Bank. On average 24 CAPRI groups and 7 CASP groups submitted docking predictions for each target, and 12 CAPRI groups per target participated in the CAPRI scoring experiment. In total more than 9500 models were assessed against the 3D structures of the corresponding target complexes. Results show that the prediction of homodimer assemblies by homology modeling techniques and docking calculations is quite successful for targets featuring large enough subunit interfaces to represent stable associations. Targets with ambiguous or inaccurate oligomeric state assignments, often featuring crystal contact‐sized interfaces, represented a confounding factor. For those, a much poorer prediction performance was achieved, while nonetheless often providing helpful clues on the correct oligomeric state of the protein. The prediction performance was very poor for genuine tetrameric targets, where the inaccuracy of the homology‐built subunit models and the smaller pair‐wise interfaces severely limited the ability to derive the correct assembly mode. Our analysis also shows that docking procedures tend to perform better than standard homology modeling techniques and that highly accurate models of the protein components are not always required to identify their association modes with acceptable accuracy. Proteins 2016; 84(Suppl 1):323–348. © 2016 The Authors Proteins: Structure, Function, and Bioinformatics Published by Wiley Periodicals, Inc. John Wiley and Sons Inc. 2016-06-01 2016-09 /pmc/articles/PMC5030136/ /pubmed/27122118 http://dx.doi.org/10.1002/prot.25007 Text en © 2016 The Authors Proteins: Structure, Function, and Bioinformatics Published by Wiley Periodicals, Inc. This is an open access article under the terms of the Creative Commons Attribution (http://creativecommons.org/licenses/by/4.0/) License, which permits use, distribution and reproduction in any medium, provided the original work is properly cited.
spellingShingle Articles
Lensink, Marc F.
Velankar, Sameer
Kryshtafovych, Andriy
Huang, Shen‐You
Schneidman‐Duhovny, Dina
Sali, Andrej
Segura, Joan
Fernandez‐Fuentes, Narcis
Viswanath, Shruthi
Elber, Ron
Grudinin, Sergei
Popov, Petr
Neveu, Emilie
Lee, Hasup
Baek, Minkyung
Park, Sangwoo
Heo, Lim
Rie Lee, Gyu
Seok, Chaok
Qin, Sanbo
Zhou, Huan‐Xiang
Ritchie, David W.
Maigret, Bernard
Devignes, Marie‐Dominique
Ghoorah, Anisah
Torchala, Mieczyslaw
Chaleil, Raphaël A.G.
Bates, Paul A.
Ben‐Zeev, Efrat
Eisenstein, Miriam
Negi, Surendra S.
Weng, Zhiping
Vreven, Thom
Pierce, Brian G.
Borrman, Tyler M.
Yu, Jinchao
Ochsenbein, Françoise
Guerois, Raphaël
Vangone, Anna
Rodrigues, João P.G.L.M.
van Zundert, Gydo
Nellen, Mehdi
Xue, Li
Karaca, Ezgi
Melquiond, Adrien S.J.
Visscher, Koen
Kastritis, Panagiotis L.
Bonvin, Alexandre M.J.J.
Xu, Xianjin
Qiu, Liming
Yan, Chengfei
Li, Jilong
Ma, Zhiwei
Cheng, Jianlin
Zou, Xiaoqin
Shen, Yang
Peterson, Lenna X.
Kim, Hyung‐Rae
Roy, Amit
Han, Xusi
Esquivel‐Rodriguez, Juan
Kihara, Daisuke
Yu, Xiaofeng
Bruce, Neil J.
Fuller, Jonathan C.
Wade, Rebecca C.
Anishchenko, Ivan
Kundrotas, Petras J.
Vakser, Ilya A.
Imai, Kenichiro
Yamada, Kazunori
Oda, Toshiyuki
Nakamura, Tsukasa
Tomii, Kentaro
Pallara, Chiara
Romero‐Durana, Miguel
Jiménez‐García, Brian
Moal, Iain H.
Férnandez‐Recio, Juan
Joung, Jong Young
Kim, Jong Yun
Joo, Keehyoung
Lee, Jooyoung
Kozakov, Dima
Vajda, Sandor
Mottarella, Scott
Hall, David R.
Beglov, Dmitri
Mamonov, Artem
Xia, Bing
Bohnuud, Tanggis
Del Carpio, Carlos A.
Ichiishi, Eichiro
Marze, Nicholas
Kuroda, Daisuke
Roy Burman, Shourya S.
Gray, Jeffrey J.
Chermak, Edrisse
Cavallo, Luigi
Oliva, Romina
Tovchigrechko, Andrey
Wodak, Shoshana J.
Prediction of homoprotein and heteroprotein complexes by protein docking and template‐based modeling: A CASP‐CAPRI experiment
title Prediction of homoprotein and heteroprotein complexes by protein docking and template‐based modeling: A CASP‐CAPRI experiment
title_full Prediction of homoprotein and heteroprotein complexes by protein docking and template‐based modeling: A CASP‐CAPRI experiment
title_fullStr Prediction of homoprotein and heteroprotein complexes by protein docking and template‐based modeling: A CASP‐CAPRI experiment
title_full_unstemmed Prediction of homoprotein and heteroprotein complexes by protein docking and template‐based modeling: A CASP‐CAPRI experiment
title_short Prediction of homoprotein and heteroprotein complexes by protein docking and template‐based modeling: A CASP‐CAPRI experiment
title_sort prediction of homoprotein and heteroprotein complexes by protein docking and template‐based modeling: a casp‐capri experiment
topic Articles
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC5030136/
https://www.ncbi.nlm.nih.gov/pubmed/27122118
http://dx.doi.org/10.1002/prot.25007
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AT moaliainh predictionofhomoproteinandheteroproteincomplexesbyproteindockingandtemplatebasedmodelingacaspcapriexperiment
AT fernandezreciojuan predictionofhomoproteinandheteroproteincomplexesbyproteindockingandtemplatebasedmodelingacaspcapriexperiment
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