Expression of a recombinant, 4'-Phosphopantetheinylated, active M. tuberculosis fatty acid synthase I in E. coli.

Expression of a recombinant, 4'-Phosphopantetheinylated, active M. tuberculosis fatty acid synthase I in E. coli.

BACKGROUND:Fatty acid synthase 1 (FAS I) from Mycobacterium tuberculosis (Mtb) is an essential protein and a promising drug target. FAS I is a multi-functional, multi-domain protein that is organized as a large (1.9 MDa) homohexameric complex. Acyl intermediates produced during fatty acid elongation...

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Main Authors: Szilvia Baron, Yoav Peleg, Jacob Grunwald, David Morgenstern, Nadav Elad, Moshe Peretz, Shira Albeck, Yishai Levin, John T Welch, Kim A DeWeerd, Alon Schwarz, Yigal Burstein, Ron Diskin, Zippora Shakked, Oren Zimhony
Format: Article
Language:English
Published: Public Library of Science (PLoS) 2018-01-01
Series:PLoS ONE
Online Access:http://europepmc.org/articles/PMC6152951?pdf=render
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spelling doaj-1d9f222d744f434093bda218d542647c2020-11-24T22:04:58ZengPublic Library of Science (PLoS)PLoS ONE1932-62032018-01-01139e020445710.1371/journal.pone.0204457Expression of a recombinant, 4'-Phosphopantetheinylated, active M. tuberculosis fatty acid synthase I in E. coli.Szilvia BaronYoav PelegJacob GrunwaldDavid MorgensternNadav EladMoshe PeretzShira AlbeckYishai LevinJohn T WelchKim A DeWeerdAlon SchwarzYigal BursteinRon DiskinZippora ShakkedOren ZimhonyBACKGROUND:Fatty acid synthase 1 (FAS I) from Mycobacterium tuberculosis (Mtb) is an essential protein and a promising drug target. FAS I is a multi-functional, multi-domain protein that is organized as a large (1.9 MDa) homohexameric complex. Acyl intermediates produced during fatty acid elongation are attached covalently to an acyl carrier protein (ACP) domain. This domain is activated by the transfer of a 4'-Phosphopantetheine (4'-PP, also termed P-pant) group from CoA to ACP catalyzed by a 4'-PP transferase, termed acyl carrier protein synthase (AcpS). METHODS:In order to obtain an activated FAS I in E. coli, we transformed E. coli with tagged Mtb fas1 and acpS genes encoded by a separate plasmid. We induced the expression of Mtb FAS I following induction of AcpS expression. FAS I was purified by Strep-Tactin affinity chromatography. RESULTS:Activation of Mtb FAS I was confirmed by the identification of a bound P-pant group on serine at position 1808 by mass spectrometry. The purified FAS I displayed biochemical activity shown by spectrophotometric analysis of NADPH oxidation and by CoA production, using the Ellman reaction. The purified Mtb FAS I forms a hexameric complex shown by negative staining and cryo-EM. CONCLUSION:Purified hexameric and active Mtb FAS I is required for binding and drug inhibition studies and for structure-function analysis of this enzyme. This relatively simple and short procedure for Mtb FAS I production should facilitate studies of this enzyme.http://europepmc.org/articles/PMC6152951?pdf=render
collection DOAJ
language English
format Article
sources DOAJ
author Szilvia Baron
Yoav Peleg
Jacob Grunwald
David Morgenstern
Nadav Elad
Moshe Peretz
Shira Albeck
Yishai Levin
John T Welch
Kim A DeWeerd
Alon Schwarz
Yigal Burstein
Ron Diskin
Zippora Shakked
Oren Zimhony
spellingShingle Szilvia Baron
Yoav Peleg
Jacob Grunwald
David Morgenstern
Nadav Elad
Moshe Peretz
Shira Albeck
Yishai Levin
John T Welch
Kim A DeWeerd
Alon Schwarz
Yigal Burstein
Ron Diskin
Zippora Shakked
Oren Zimhony
Expression of a recombinant, 4'-Phosphopantetheinylated, active M. tuberculosis fatty acid synthase I in E. coli.
PLoS ONE
author_facet Szilvia Baron
Yoav Peleg
Jacob Grunwald
David Morgenstern
Nadav Elad
Moshe Peretz
Shira Albeck
Yishai Levin
John T Welch
Kim A DeWeerd
Alon Schwarz
Yigal Burstein
Ron Diskin
Zippora Shakked
Oren Zimhony
author_sort Szilvia Baron
title Expression of a recombinant, 4'-Phosphopantetheinylated, active M. tuberculosis fatty acid synthase I in E. coli.
title_short Expression of a recombinant, 4'-Phosphopantetheinylated, active M. tuberculosis fatty acid synthase I in E. coli.
title_full Expression of a recombinant, 4'-Phosphopantetheinylated, active M. tuberculosis fatty acid synthase I in E. coli.
title_fullStr Expression of a recombinant, 4'-Phosphopantetheinylated, active M. tuberculosis fatty acid synthase I in E. coli.
title_full_unstemmed Expression of a recombinant, 4'-Phosphopantetheinylated, active M. tuberculosis fatty acid synthase I in E. coli.
title_sort expression of a recombinant, 4'-phosphopantetheinylated, active m. tuberculosis fatty acid synthase i in e. coli.
publisher Public Library of Science (PLoS)
series PLoS ONE
issn 1932-6203
publishDate 2018-01-01
description BACKGROUND:Fatty acid synthase 1 (FAS I) from Mycobacterium tuberculosis (Mtb) is an essential protein and a promising drug target. FAS I is a multi-functional, multi-domain protein that is organized as a large (1.9 MDa) homohexameric complex. Acyl intermediates produced during fatty acid elongation are attached covalently to an acyl carrier protein (ACP) domain. This domain is activated by the transfer of a 4'-Phosphopantetheine (4'-PP, also termed P-pant) group from CoA to ACP catalyzed by a 4'-PP transferase, termed acyl carrier protein synthase (AcpS). METHODS:In order to obtain an activated FAS I in E. coli, we transformed E. coli with tagged Mtb fas1 and acpS genes encoded by a separate plasmid. We induced the expression of Mtb FAS I following induction of AcpS expression. FAS I was purified by Strep-Tactin affinity chromatography. RESULTS:Activation of Mtb FAS I was confirmed by the identification of a bound P-pant group on serine at position 1808 by mass spectrometry. The purified FAS I displayed biochemical activity shown by spectrophotometric analysis of NADPH oxidation and by CoA production, using the Ellman reaction. The purified Mtb FAS I forms a hexameric complex shown by negative staining and cryo-EM. CONCLUSION:Purified hexameric and active Mtb FAS I is required for binding and drug inhibition studies and for structure-function analysis of this enzyme. This relatively simple and short procedure for Mtb FAS I production should facilitate studies of this enzyme.
url http://europepmc.org/articles/PMC6152951?pdf=render
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