Analyses of Mlc-IIBGlc interaction and a plausible molecular mechanism of Mlc inactivation by membrane sequestration
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Title
- Analyses of Mlc-IIBGlc interaction and a plausible molecular mechanism of Mlc inactivation by membrane sequestration
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Author(s)
- Nam, Tae-Wook; Il Jung, Ha; An, Young Jun; Park, Young-Ha; Lee, Sang Hee; Seok, Yeong-Jae; Cha, Sun-Shin
- KIOST Author(s)
- An, Young Jun(안영준)
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Alternative Author(s)
- 정하일; 안영준; 차선신
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Publication Year
- 2008-03-11
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Abstract
- in Escherichia coli, glucose-dependent transcriptional induction of genes encoding a variety of sugar-metabolizing enzymes and transport systems is mediated by the phosphorylation state-dependent interaction of membrane-bound enzyme IICBGlc (EIICBGlc) with the global repressor Mlc. Here we report the crystal structure of a tetrameric Mlc in a complex with four molecules of enzyme IIBGlc (EIIB), the cytoplasmic domain of EIICBGlc. Each monomer of Mlc has one bound EIIB molecule, indicating the 1:1 stoichiometry. The detailed view of the interface, along with the high-resolution structure of EIIB containing a sulfate ion at the phosphorylation site, suggests that the phosphorylation-induced steric hindrance and disturbance of polar intermolecular interactions impede complex formation. Furthermore, we reveal that Mlc possesses a built-in flexibility for the structural adaptation to its target DNA and that interaction of Mlc with EIIB fused only to dimeric proteins resulted in the loss of its DNA binding ability, suggesting that flexibility of the Mlc structure is indispensable for its DNA binding.
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ISSN
- 0027-8424
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URI
- https://sciwatch.kiost.ac.kr/handle/2020.kiost/4530
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DOI
- 10.1073/pnas.0709295105
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Bibliographic Citation
- PROCEEDINGS OF THE NATIONAL ACADEMY OF SCIENCES OF THE UNITED STATES OF AMERICA, v.105, no.10, pp.3751 - 3756, 2008
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Publisher
- NATL ACAD SCIENCES
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Subject
- GLOBAL REPRESSOR MLC; ESCHERICHIA-COLI; GLUCOSE-TRANSPORTER; PHOSPHOTRANSFERASE SYSTEM; ENZYME IIA(NTR); MAJOR GLUCOSE; EXPRESSION; PROTEIN; REGULATOR; PTS
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Keywords
- enzyme IICBGlc; glucose signaling; protein-protein interaction; transcription regulation
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Type
- Article
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Language
- English
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Document Type
- Article
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