Large-scale identification of protein–protein interaction of <i>Escherichia coli</i> K-12

Mohammad Arifuzzaman(Kyowa Kirin (Japan)), Maki Maeda(Japan Science and Technology Agency), Aya Itoh(Keio University), Kensaku Nishikata(Nara Institute of Science and Technology), Chiharu Takita(Japan Science and Technology Agency), Rintaro Saito(Keio University), Takeshi Ara(Keio University), Kenji Nakahigashi(Keio University), Hsuan‐Cheng Huang(National Yang Ming Chiao Tung University), Aki Hirai(Japan Science and Technology Agency), Kohei Tsuzuki(Keio University), Seira Nakamura(Keio University), Mohammad Altaf-Ul-Amin(Nara Institute of Science and Technology), Taku Oshima(Nara Institute of Science and Technology), Tomoya Baba(Keio University), Natsuko Yamamoto(Kyowa Kirin (Japan)), Tomoyo Kawamura(Japan Science and Technology Agency), Tomoko Ioka-Nakamichi(Japan Science and Technology Agency), Masanari Kitagawa(Nara Institute of Science and Technology), Masaru Tomita(Keio University), Shigehiko Kanaya(Nara Institute of Science and Technology), Chieko Wada(Kyoto University), Hirotada Mori(Keio University)
Genome Research
April 10, 2006
10.1101/gr.4527806
Cited by 403Open Access
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Abstract

Protein-protein interactions play key roles in protein function and the structural organization of a cell. A thorough description of these interactions should facilitate elucidation of cellular activities, targeted-drug design, and whole cell engineering. A large-scale comprehensive pull-down assay was performed using a His-tagged Escherichia coli ORF clone library. Of 4339 bait proteins tested, partners were found for 2667, including 779 of unknown function. Proteins copurifying with hexahistidine-tagged baits on a Ni2+-NTA column were identified by MALDI-TOF MS (matrix-assisted laser desorption ionization time of flight mass spectrometry). An extended analysis of these interacting networks by bioinformatics and experimentation should provide new insights and novel strategies for E. coli systems biology.

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