Rigidifying acyl carrier protein domain in iterative type I PKS CalE8 does not affect its function

Acyl carrier protein (ACP) domains shuttle acyl intermediates among the catalytic domains of multidomain type I fatty acid synthase and polyketide synthase (PKS) systems. It is believed that the unique function of ACPs is associated with their dynamic property, but it remains to be fully elucidated...

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Main Authors:	Lim, Jackwee, Sun, Huihua, Fan, Jing-Song, Hameed, Iman Fahim, Lescar, Julien, Liang, Zhao-Xun, Yang, Daiwen
Other Authors:	School of Biological Sciences
Format:	Article
Language:	English
Published:	2013
Subjects:	DRNTU::Science::Biological sciences
Online Access:	https://hdl.handle.net/10356/96023 http://hdl.handle.net/10220/10787
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Institution:	Nanyang Technological University
Language:	English

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spelling	sg-ntu-dr.10356-960232022-02-16T16:26:41Z Rigidifying acyl carrier protein domain in iterative type I PKS CalE8 does not affect its function Lim, Jackwee Sun, Huihua Fan, Jing-Song Hameed, Iman Fahim Lescar, Julien Liang, Zhao-Xun Yang, Daiwen School of Biological Sciences DRNTU::Science::Biological sciences Acyl carrier protein (ACP) domains shuttle acyl intermediates among the catalytic domains of multidomain type I fatty acid synthase and polyketide synthase (PKS) systems. It is believed that the unique function of ACPs is associated with their dynamic property, but it remains to be fully elucidated what type of protein dynamics is critical for the shuttling domain. Using NMR techniques, we found that the ACP domain of iterative type I PKS CalE8 from Micromonospora echinospora is highly dynamic on the millisecond-second timescale. Introduction of an interhelical disulfide linkage in the ACP domain suppresses the dynamics on the millisecond-second timescale and reduces the mobility on the picosecond-nanosecond timescale. We demonstrate that the full-length PKS is fully functional upon rigidification of the ACP domain, suggesting that although the flexibility of the disordered terminal linkers may be important for the function of the ACP domain, the internal dynamics of the helical regions is not critical for that function. 2013-06-27T04:02:17Z 2019-12-06T19:24:37Z 2013-06-27T04:02:17Z 2019-12-06T19:24:37Z 2012 2012 Journal Article Lim, J., Sun, H., Fan, J.-S., Hameed, I. F., Lescar, J., Liang, Z.-X., et al. (2012). Rigidifying Acyl Carrier Protein Domain in Iterative Type I PKS CalE8 Does Not Affect Its Function. Biophysical Journal, 103(5), 1037-1044. 0006-3495 https://hdl.handle.net/10356/96023 http://hdl.handle.net/10220/10787 10.1016/j.bpj.2012.08.006 23009853 en Biophysical journal © 2012 The Biophysical Society.
institution	Nanyang Technological University
building	NTU Library
continent	Asia
country	Singapore Singapore
content_provider	NTU Library
collection	DR-NTU
language	English
topic	DRNTU::Science::Biological sciences
spellingShingle	DRNTU::Science::Biological sciences Lim, Jackwee Sun, Huihua Fan, Jing-Song Hameed, Iman Fahim Lescar, Julien Liang, Zhao-Xun Yang, Daiwen Rigidifying acyl carrier protein domain in iterative type I PKS CalE8 does not affect its function
description	Acyl carrier protein (ACP) domains shuttle acyl intermediates among the catalytic domains of multidomain type I fatty acid synthase and polyketide synthase (PKS) systems. It is believed that the unique function of ACPs is associated with their dynamic property, but it remains to be fully elucidated what type of protein dynamics is critical for the shuttling domain. Using NMR techniques, we found that the ACP domain of iterative type I PKS CalE8 from Micromonospora echinospora is highly dynamic on the millisecond-second timescale. Introduction of an interhelical disulfide linkage in the ACP domain suppresses the dynamics on the millisecond-second timescale and reduces the mobility on the picosecond-nanosecond timescale. We demonstrate that the full-length PKS is fully functional upon rigidification of the ACP domain, suggesting that although the flexibility of the disordered terminal linkers may be important for the function of the ACP domain, the internal dynamics of the helical regions is not critical for that function.
author2	School of Biological Sciences
author_facet	School of Biological Sciences Lim, Jackwee Sun, Huihua Fan, Jing-Song Hameed, Iman Fahim Lescar, Julien Liang, Zhao-Xun Yang, Daiwen
format	Article
author	Lim, Jackwee Sun, Huihua Fan, Jing-Song Hameed, Iman Fahim Lescar, Julien Liang, Zhao-Xun Yang, Daiwen
author_sort	Lim, Jackwee
title	Rigidifying acyl carrier protein domain in iterative type I PKS CalE8 does not affect its function
title_short	Rigidifying acyl carrier protein domain in iterative type I PKS CalE8 does not affect its function
title_full	Rigidifying acyl carrier protein domain in iterative type I PKS CalE8 does not affect its function
title_fullStr	Rigidifying acyl carrier protein domain in iterative type I PKS CalE8 does not affect its function
title_full_unstemmed	Rigidifying acyl carrier protein domain in iterative type I PKS CalE8 does not affect its function
title_sort	rigidifying acyl carrier protein domain in iterative type i pks cale8 does not affect its function
publishDate	2013
url	https://hdl.handle.net/10356/96023 http://hdl.handle.net/10220/10787
_version_	1725985615406694400

Rigidifying acyl carrier protein domain in iterative type I PKS CalE8 does not affect its function

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